Home » Seesaw

Tag: Seesaw

engineering design process

STEM Survival Camp & The Engineering Design Process [ep.103]

STEM Survival Camp & The Engineering Design Process [ep.103]

engineering design process

Check out the full episode on STEM Survival Camp & The Engineering Design Process:  

 

Subscribe to the podcast HERE on your favorite podcasting platform.

Have a STEM question? Leave a voice message for the podcast!

Episode Summary

Today’s episode is the audio from a presentation I did at the Seesaw Connect Summit. In this episode, I share how I merged the Engineering Design Process with my STEM survival camp unit in my K-5 STEM classroom. 

 

In this episode, you’ll learn:

  • The history of how STEM survival camp was created
  • How to integrate the Engineering Design Process in my STEM survival camp lesson
  • How to integrate Seesaw with the STEM survival camp challenges
  • Examples of how I implemented this in my K-5 STEM classroom

Resources Mentioned:

Episode Transcript: 

Naomi Meredith [00:00:00]:


One of my most favorite units I have ever taught is STEM survival camp. If you are looking for a way to easily double your Makerspace supplies for practically free and have the opportunity to take your students outside, then this unit is perfect for you. While the audio from this episode has never been heard before on this podcast, this was a presentation I did in the past at the Seesaw Connect Summit. In this episode and session, I'll be sharing with you how I merged together the Engineering Design Process and this fun, hands-on unit into my classroom with this K through 5 STEM unit with examples. If you wanna hear more in detail about STEM survival camp, I just did a re-release, and you can even scroll back all the way to episode 4. And I talk in that episode specifically about every single challenge in the STEM survival camp. If you need more background knowledge when it comes to the Engineering Design Process, I do get into it in this session, but I'm linking the 2 together. So STEM survival camp and the Engineering Design Process.


Naomi Meredith [00:01:05]:


So if you wanna hear more about each of those stages, go all the way back to the episode series all about the Engineering Design Process. So that starts in episode 15, then it skips to episodes 17 through 22. So you can listen to that first Or listen to this episode, and then go back and listen to those episodes that I just listed, and that can give you some more background knowledge to understand what I'm talking about. So let's jump into this fun episode to talk about one of my most favorite units. 


Hey there, teachers, and welcome to the session that's going to help kick off your year using the outdoors STEM survival camp. I am your guide, Naomi Meredith, a former classroom teacher turned current K through 5 STEM teacher and coach. My role not only includes teaching over 500 students in my school but also leading professional development and co-teaching with the teachers to help them integrate STEM and Technology. With over a decade of experience, along with a Master's in STEM Leadership and a STEM certificate, I help teachers worldwide navigate the best practices, strategies, and tools out there.


Naomi Meredith [00:02:53]:


I truly believe that any teacher out there can learn how to use STEM and Technology in their classrooms. I can't wait to connect with you and be your guide during STEM survival camp in our short time together and other adventures. Here is an overview of the session and how we will spend our time together at STEM survival camp. First, you're going to hear the origin story of how STEM survival camp got started. Next, you're going to learn how to integrate and understand what the Engineering Design Process is, which is used in these STEM survival camp challenges, then you're going to see real examples of ways that you can integrate Seesaw with these STEM survival camp challenges, and then you're going to have some resources that will help you implement this in your own classroom. Let's gather around the campfire campers, and let's hear the origin story of STEM survival camp. Everybody likes a good origin story, and where things come from, so I think you'll like this one. This unit was born during the summer of 2020, and I was in the middle of a pandemic just like you. My school district was still planning on going back to school 100 percent in person for elementary students, along with the possibility of going remote at a moment's notice.


Naomi Meredith [00:04:18]:


The units I had done in the past, during August, wouldn't work since students would share classroom materials and most likely didn't have the same items at home. I needed to create something that could be shifted no matter what, and students could still have the same STEM experience. At the time, I was watching this survival show alone. And if you haven't seen it before, people are forced to be creative to survive, well, alone, by building their necessities, gathering, and protecting their food, traveling the land, and for those that stay really long staying entertained, thus STEM survival camp was born. This is one of six units I taught in my K through 5 STEM classroom, and we had an absolute blast. So much so that this is a unit that I taught again and will be taught each year coming back to school to help ignite creativity, create engagement, and improve critical thinking skills. I'm excited to have you learn more about this experience so that you can start something similar in your classroom. Before you dive into the actual STEM survival camp lessons, it's important to understand the basics of what the Engineering Design Process actually is.


Naomi Meredith [00:05:43]:


In my own definition, the Engineering Design Process is the real process engineers use to ask questions, find solutions, iterate ideas, or try something over and over again. So why is this important in the elementary space? Why is this even relevant? Well, the Engineering Design Process is part of the Next Generation Science Standards, even starting in kindergarten. Of course, there is a progression of learning among all the grades, but this is something that needs to be taught to our students. Now depending on which state you're in, your state might have even different variations of the Engineering Design Process and your standards and what they have adopted. So check that out and see what the science portion is for your state and district. Also, the Engineering Design Process is different than the scientific method. This doesn't mean getting rid of the scientific method, either. So I would say the scientific method is using science to prove and investigate a problem, and there typically is that scripted outcome or reason why something happens, at least in that elementary setting.


Naomi Meredith [00:06:58]:


It's great to integrate the Engineering Design Process along with the scientific method. So different types of experiments, different lessons, but the Engineering Design Process is used to plan, build, and solve a problem with multiple outcomes and solutions and, often, this comes with inventing. So, again, both are very different. Both are relevant. Both are needed. You typically don't teach both in the same lesson. So that'll help you understand the difference between the two. And also, when you're teaching the Engineering Design Process, this is a great opportunity to promote that creative problem-solving and also creativity with constraints.


Naomi Meredith [00:07:43]:


Students are creative beings, and it's amazing to tap into that. But also giving them those challenges where things aren't unlimited, they have to be creative with what they have. And you will see in these STEM survival camp examples that I'll be sharing with you that there is some creativity with constraints, which is really important to have so that students are problem-solving in a different way. In this course, I will be providing you with some free resources to help you get started when planning using the Engineering Design Process that will help you with these STEM survival camp challenges along with other STEM challenges that you want to implement in your classroom. Now that we have a basic understanding of what the Engineering Design Process is let's see how we can integrate that with Seesaw when we are accomplishing STEM survival camp. I'm going to be showing you these examples from kindergarten and 5th grades to the same challenge for each of those 2 individual grades so that you can flex up or down depending on the age of your students that you and you might even teach all of the students as I do as well.


Naomi Meredith [00:08:57]:


Now you already know that Seesaw has some amazing creative tools that you can use with any type of lesson and any type of subject, and I will use a mixture of both tools depending on the time and experience my students have with Seesaw. So, of course, you have the green add button. And when you click on that button, you get a variety of tools that pop up on your page, just like what I'm showing here. And then you also have those same tools that are embedded with activities. So, again, depending on their experience, you might want to it up. So, for example, my kindergartners don't have as much experience with Seesaw when coming into the school year. So I will typically start with one-page activities with them that have one goal in mind, or I will do a one-day challenge with the green add button. So maybe that is, let's just take a picture of our work today.


Naomi Meredith [00:09:52]:


Now for my older students, that I have had more time with, the years and more experience with Seesaw, not only with STEM survival camp but other challenges we do during STEM. I will use more of a mixture of multi-tools. So we might do let's take a picture and record our voice on top using the arrow tool. or I might even send them multi-page activities that we will edit throughout the week and go through during our time together. So really mix up the creative tools when you are using CSA with your student. The 1st stage in the Engineering Design Process is at. Now you are asking the problem that needs to be solved. This problem can be teacher or student-directed depending on the time that you have and what you're really trying to accomplish.


Naomi Meredith [00:10:43]:


Since I have limited time with my students, I typically will have the ask the problem already written out for them, and I will keep this question really open-ended. So when you're thinking about the problem that you're trying to solve, shift from can you do this, which is typically a yes or no answer, to how can you, which keeps it more open-ended. So just shifting those few little words can really change the outcome of your challenge. So for this STEM survival camp experience, kindergarten has the question, how can you create a solution to help you cross the river safely? And 5th grade's challenge is how can you create a shelter that will withstand different types of weather. So both are very open-ended for the challenges that they are going to attack. The next stage in the Engineering Design Process is the imagined stage. Now, again, depending on the time you have, you probably want to pre-research a lot of these resources for students to explore. just so that they can attack what they need to. Again, research is a really great tool, and skill for students to have.


Naomi Meredith [00:12:00]:


That isn't always in my STEM position, what time we have for. I really want to get kids into building and collaborating. So I will pre-research in a lot of ways and provide those resources for students. So you see on the left that there is the shelter inspiration, so I found different images of shelters that are built in real life by people. My students are gonna build little small prototypes of these or whatever they choose to plan. And if you've done challenges before, really think about how you can take pictures and videos as students work in action because that's really helpful for kids to see what real kids have done. Now this isn't a means to copy each other's work, but just seeing different examples that will give them a basis of understanding. The cool thing with Seesaw is you can even go through your past classes in Seesaw and save work with those QR codes.


Naomi Meredith [00:12:56]:


So if you click the three dots under a student's post in a journal, students could scan that QR code, and they can check out work that way, or you can even create a list of links to past student work. Also, in the Imagine stage, you can find videos online, websites that are related, podcast whole podcasts or even podcast clips, or even create a collection in Epic Books that you can share with students. So the more pre-research that you do as a teacher and giving those tools to students, that can really help you save time and help them focus on what they need to know for their challenge. Group students have gathered ideas from all of the imagining resources. It is time for them to plan their design thoughtfully. Planning designs is important for all grade levels and is possible for all grade levels, no matter what their abilities are. The planning stage is also where I will tell them how much of each item they're going to be able to use. So in this unit for STEM survival camp, there are predetermined amounts of materials they're allowed to use along with anything that they collect from the outside.


Naomi Meredith [00:14:05]:


So here is an example of a kindergarten plan, and this is from a different related project. So you notice it says Pumpkin Bridge. It's from something else; however, the challenge is how you can create something to help cross the river safely. So a bridge would definitely work in this situation. So ahead of time, in this one-page activity that I sent my kindergartners, I added in the predetermined materials that they would be able to use for my classroom. So, for example, they will be able to use popsicle sticks, cubes, and cups. You can even limit this even more and have a set amount of popsicle sticks, cubes, and cups; that is entirely up to you. Now for this challenge, they are also able to use anything that we collect from the outdoors.


Naomi Meredith [00:14:51]:


There are some rules that will go over in the create stage for that. So students use Seesaw, the drawing tool, to draw their design, and I really encourage them to use colors to really think about how their plan could look like in real life. They can also label their drawing as well. I've seen students draw lines from the materials list to their actual drawings, or they like to use that text tool to label on top. So depending on their experience with Seesaw and how you want to go with this. Those are a couple of options for planning for those younger students. You can also leave that material section blank if you don't have time. Or, if you want to use Seesaw tools even more, students can take pictures of the materials that they're going to use in the classroom, and then they can put that in that empty space.


Naomi Meredith [00:15:43]:


For the older students, I do still have them thoughtfully plan their designs. And what I have found is that drawing their plans on a separate piece of paper can really bring out those details just based on the types of devices that I have that they use Seesaw on. Older students will often get frustrated drawing their plans just using their fingers because there's so much that they want to add. So I still have them plan on a piece of paper. I'll send them that planning sheet, but then they will take a picture of their plan. and then also they can talk about their design using the microphone tools. So, again, they can use the c sub tools in a different way. When the older students are planning, I will try to encourage them to draw more than one view of their plan based on our planning rubric, label the parts, and also explain what each of those parts will do.


Naomi Meredith [00:16:34]:


So in this example, they're going to use 6, a bag, a wrapper, and string, and you notice that they describe what each of those parts is going to do. During this planning stage, if you are thinking about using the money for students to purchase supplies, this is the stage that you would do that. I do use money in other units. For STEM survival camp, I just have the set amount of materials. But if you are thinking about adding money and a budget, the planning stage is where you want to do that. Now that the plans are underway, it is time to take, which is the students’ favorite part, especially since they get to find some materials from the outdoors. So like, I mentioned during the planning stage, I will tell them the amount of the predetermined things for my classroom that they are able to use within their design.


Naomi Meredith [00:17:25]:


So, of course, it goes back to that creativity with constraints. It's always good to let students be creative and design whatever is in their heart's desire that is school appropriate, but also have those constraints when it comes to the material because when you think about things that we build in real life, there usually isn't an unlimited amount of materials and students need to realize that. and be creative with what they got. So we'll go over those things that they can use from the classroom, and then they can go outside to collect the materials that they want to add to their design. So this is really fun, especially when the weather is nice, so keep that in mind as well. So when we go and collect things from outside, I do have some ground rules that I go over with all of the classes. So these are the same rules for k through 5. So these are my biggest things that we are collecting, is only take what you need.


Naomi Meredith [00:18:20]:


So we don't wanna be excessive with what we're taking from nature. But based on the plans, we only take what we need. I will have one initial day that we will go outside to collect materials. And then depending on the class, some classes do want to go back out a few days later, and some of them will actually take things back outside and then collect something new. So I also don't have students bring bags with them because I did that the first time, and then they came back with bags of dirt and all sorts of things. We had a spider and a slug. So happen to be able to carry what they take from the outside indoors. Next is that living things stay living.


Naomi Meredith [00:19:03]:


So we're not picking up all the grass out of the ground, taking leaves off of trees, taking small little creatures on purpose; those living things need to stay living. And then, along the same lines, sticky, slimy, and wet things stay in nature. So that might even include, like, a bag wrapper that they find that is all wet and soggy. Let's leave that outside. probably even put it in the trash. So that way, things that are coming indoors aren't as filthy. Your room will be a little bit of a mess, but this will help with that collection piece. Once students have gathered their materials from the doors and also used the things in your room, they are going to create.


Naomi Meredith [00:19:48]:


So here are some of my 5th grader's examples with the build the shelter challenge. From me, they were able to use one foot of string, one grocery bag, one foot of tape, and 2 brown paper bag pieces. You notice there are other things in their designs. They did actually find a lot of things outdoors, and then they decided to combine designs after we tested them. For kindergarten, they had other materials for me as well, along with things that they collected from the outdoors. So for them to cross the river, however, they chose. They had one foot of tape, one piece of bubble wrap, 3 small pieces of cardboard, 4 popsicle sticks, and one plastic top. I did give them more material since it's their first-ever challenge with me, and I wanted them to experiment with things that sync and flow, which we'll talk about in the experiment section of this little course.


Naomi Meredith [00:20:38]:


You also can see in the picture of one of those kids. There is a little Lego person. They happened to have that in their pocket. They wanted to add it to their design. I said sure. And then I added water on the last day, so they built their designs for a couple of days. And then the last day is when we tested with the water, which again will go over in the experiment and improve. The improve stage really goes along with the create stage as well. Now with this done survival camp, they are fairly separate because students really do need to be pretty much done with their design before they experiment.


Naomi Meredith [00:21:15]:


However, when you're thinking about other challenges that you do in the future using the same process, there's a lot of experimenting and improving that go back and forth. So with the 5th-grade challenge, how can you create a shelter that can withstand the elements? After students have built their shelters, we will have an experimenting day. So they have a slide, a modification, and a testing checklist, and this actually got improved with my student suggestions. but they have different tests that they will put their shelter through. So they will actually guess before they test which rhymes. But they wanna guess, do they have an entrance for people to get in? Yes or no? Will it keep the inside dry? Does wind not get in, does it protect against snow, and can it be moved without breaking? So this isn't for a grade, and I remind students that this is just a way to test how you designed your shelter. So they will go through and guess using Seesaw, and they will either use the shape tool to add a little star or even just the drawing tool. And then, they will go through and test their design, which I will have set up around the room.


Naomi Meredith [00:22:26]:


So we have the wind station. The snow is glitter. And then there's a water station. You can kind of see in the picture that there is a little basket, and then there's another bucket with water. They put this sponge in the water, and then they squeeze it on top of their shelter with their shelter in that basket. So then they're not flooding. They're designed completely. It might be based on how they designed it.


Naomi Meredith [00:22:50]:


And then, from there, they will go back to their checklist and then check off what actually happened. I do have another agency saw where I have students take a picture of their design before and after testing, which is really helpful. and I will have some towels on hand because a lot of students if they have time, will actually go back and improve their design and test again. So it's really great having Seesaw. Make sure to keep it away from the water. But having Seesaw available because they can really showcase what is happening during those experiments. Similarly, with kindergarten with the crossing the river challenge, I have them if they take a picture of each other's work and add it to their modifications. So they're thinking about if certain things would sink or flow, and you could do this part after their building piece or even beforehand, depending on the flow of your lessons.


Naomi Meredith [00:23:46]:


So, again, Seesaw makes it really easy to record the results and things that paper might not be able to do. From there, students can share their work either by taking a picture, or a video adding to those pictures that we're taking for testing the experiments, sometimes I will take the picture for them and put it in their Seesaw account depending on our time. Other kids will help each other take pictures of as well of their work, which is really helpful. And then, I always make sure to have some questions at the end to reflect on. And I use these questions throughout all of my different types of units because the responses will definitely change over time. and based on the types of projects that we are working on. So students can either use the text box tool to type in their thinking can record a video answering the responses. Some students prefer not being on video yet, so they might use the microphone to record their voices as well.


Naomi Meredith [00:24:47]:


For younger students, I will maybe ask them one of these question prompts, and then they will respond back, and you can hear my voice on the recording as well. We might do all three, or maybe I will type in their answer for them. So there are a lot of opportunities for students to reflect on their work throughout this process. Thank you so much for joining in on this little journey, campers. Now that you have seen the examples used in kindergarten for a STEM survival camp, along with how it can be taken to higher levels in the 5th grade, you can now explore and create your own STEM survival camp challenges that you can use during back-to-school time. I have included some free resources to help you plan using the Engineering Design Process, so make sure to check those out, And these planning pages can help you when you're designing STEM survival camp challenges along with other Engineering Design Process lessons that you may be teaching in the future. If you have any questions and make sure to reach out, I can be found in a lot of different places. You can find me on my website, naomimeredith.com, send an email, contactnaomimeredith@gmail.com, and @naomimeredith_, where I share a lot of STEM and technology content all the time.


Naomi Meredith [00:26:08]:


And then also on YouTube where I have more video tutorials and also things for students as well. Thank you so much again, and I hope you have a wonderful school year. This presentation had a ton of visuals, and I bet you are dying to see all of the examples and handouts. You can grab the video recording of this episode, the video slides I referenced throughout, student examples, and bonuses for only $5. That's less than a fancy coffee drink. This will all be linked in the show notes, and you can check it all out here at naomimeredith.com/PDreplay.

engineering design process

 

Related Episodes/Blog Posts:

 

Connect with Naomi Meredith:

 

More About your host, Naomi Meredith

Naomi Meredith is a former classroom teacher turned current K-5 STEM teacher and coach. Her role not only includes teaching over 500 students in her school, but also leading professional development and co-teaching with teachers to help them integrate STEM & Technology.

With over a decade of experience along with a M.Ed. in STEM Leadership and STEM certificate, she helps teachers navigate the best practices, strategies and tools out there.

She truly believes that any teacher out there can learn how to use STEM & Technology in their classrooms effectively. She can’t wait to connect with you and be your guide!

More About The Elementary STEM Coach Podcast

Are you tired of scrolling online for your next great STEM lesson? Do you feel like there is no time to plan, research and test meaningful STEM lessons, so you throw together a hands-on activity and hope that it works? What systems and routines should you set in place to help students be creative, critically think, and collaborate? 

The Elementary STEM Coach is a podcast for K-5 STEM teachers, classroom teachers, GT specialists, and homeschool parents looking for actionable STEM solutions. Each week, Naomi Meredith will share tools, resources and lesson ideas that are actionable in your classroom and create highly engaging experiences with your students. You’ll learn systems and routines that will create control in the chaos and that will keep you organized all year long. 

Your mindless scrolling days are over! Your new STEM-best friend is now here in your ear buds!

integrating Seesaw

Integrating Seesaw and the Engineering Design Process [ep.49]

Integrating Seesaw and the Engineering Design Process [ep.49]

integrating Seesaw

Check out the full episode on Integrating Seesaw and the Engineering Design Process:  

 

Subscribe to the podcast HERE on your favorite podcasting platform.

Have a STEM question? Leave a voice message for the podcast!

Episode Summary

I am a huge fan of Seesaw and teaching with the Engineering Design Process. So naturally, I found a way to merge the two together with my everyday teaching in the STEM classroom. 

Today’s episode is from an online summit I did in the past at one of the Seesaw Connect Online Conferences. 

In today’s episode, I am breaking down different ways that I like to integrate Seesaw when teaching with the Engineering Design Process and how to make it work for K-5. 

 

In this episode, you’ll learn:

  • How I integrate Seesaw when teaching the Engineering Design Process
  • How to adapt these lessons for K-5
  • Examples of activities that integrate Seesaw with the Engineering Design Process that my students completed 

Resources Mentioned:

Episode Transcript: 

Naomi Meredith  00:00

You probably already know by now that I am a huge fan of Seesaw and teaching with the Engineering Design Process. So naturally I found a way to merge the two together with my everyday teaching and the STEM classroom. While the audio from this episode has never been heard before on this podcast, this presentation is from an online summit I did in the past at one of the Seesaw Connect Online Conferences. I'll be breaking down different ways that I like to integrate Seesaw when teaching with the Engineering Design Process, and how to make it work for K through five. Let's jump right in. 


Naomi Meredith  00:36

We have the Engineering Design Process, which is standards that we have to teach. Then we have Seesaw, which is this amazing tool that we know works well for our students. How in the world can we connect the two together? I am Naomi Meredith, a former classroom teacher turned K through five STEM teacher. I am here to show you just that, including how we can integrate Seesaw with the Engineering Design Process to showcase student learning and really show off their creativity. So let's dive into this course and have a great time together. First, we're going to learn about what is the Engineering Design Process, and it's not just for STEM classrooms. This will be very helpful, especially if you are a classroom teacher too. We're also going to see ways that we can integrate the Engineering Design Process with Seesaw. Three, we're going to look at some student examples. I have pulled together things from primary students and also the intermediate students I've had in my classrooms. So you could see the age range and ability levels in that way, and for some useful supplies and resources that you can take away and implement in your classroom. 


Naomi Meredith  02:18

First, let's build some background knowledge on what is the Engineering Design Process. It is a real process that engineers use to ask questions, find solutions, and iterate ideas. Iterate means to test your solution, make some changes, and then test and make changes. So that process happens a lot. So why in the world should we teach this? It's this big, scary world, our students aren't engineers, well, actually, they can take on that role. They are in the Next Generation Science Standards for elementary. So Kindergarten through second grade have the same Engineering Design Process standards, and they can be applied to any of the other science standards that you have as well. So it's a great way to solve those problems. When you're looking at the Engineering Design Process standards, you don't have to teach them for every single unit. So that's a whole other lesson that we could go into. But you really want to think about the standards where there is a problem that students need to solve. It is different than the scientific method, and the Engineering Design Process isn't replacing the scientific method. So think about it like this, we have scientists who are testing solutions to see if they work, they're doing experiments, and they're using different variables to test those solutions. Engineering Design Process is a little bit different because we're asking a question, and then we're building to solve a problem. Yes, that can be hands on building. But as you get more into it, it can involve other things like electrical engineering, or computer engineering. So it's not just that I'm building engineering that we typically think of, but that is definitely a great start. 


Naomi Meredith  03:58

So when you're looking at those Next Generation Science Standards, again, look at those standards see what would make the most sense with the scientific method work or the Engineering Design Process. So for this session, we're focusing on Engineering Design Process and examples for those. The great thing about this is through this process, as students get used to it, as you as a teacher are used to teaching it, it does promote creative problem solving. So there are multiple solutions to the problem, which is amazing. It's hard to get used to at first because everybody's ideas are going to look different and unique. That is the amazing part because that is how inventions get started. So definitely something to dive into. It's actually really fun once you start using it in your classroom. When integrating the Engineering Design Process, Seesaw makes it so easy with the tools they already have built into the platform. So when you are planning your lessons and if you're already familiar with Seesaw, you know that those tools are available and you can link the two together. So when you see the examples that I share, I have those tools in mind as I am lesson planning. Now, if you are new to Seesaw, I'm not gonna go over what all the tools do, just a quick overview. So just make sure that you check out Seesaw's website, they have some great tutorials for you to use when you're getting started. Also, if you're familiar with everything, definitely check those out as a great refresher. I've used Seesaw as a classroom teacher. So I've seen the value of what it was with my 24 students, and now as a K through five STEM teacher. I also see how amazing it is with all the kids in the school. So this can definitely be done with all ages. 


Naomi Meredith  05:39

Now, of course, we have the green add button. So when you click on that, as a teacher or a student, there's all these tools that are available. So we have photos, kids can take pictures of their work, students can draw their own drawings and draw on top of things. They also have the option to record a video within the platform, which is very helpful. So they're not doing any external uploading. But you can do that as an option as well. And then, of course, they can type a note to respond to things and add a link. So adding in those tools right away are very, very meaningful. And then we also have the Activity button, that light bulb. So depending on the time you have creating activities ahead of time that go along with your lesson, and students respond on top of the pages that you send them is also great as well, because they can keep track of their thinking throughout the week. So often, I will have a Engineering Design Process notebook I'll send to their activities. And then we will go through that as the days go on. Instead of me printing something, it's more interactive. 


Naomi Meredith  06:38

With this Seesaw tools available, I've included some resources in here to help you with the planning process, and as you brainstorm some ideas. So the first document is that lesson plan document more like a brainstorm, of course, we'd like to type out our lessons a lot of us but this is just a great way to get ideas out there and think through how a lesson would work with the Engineering Design Process. So of course, to start off with the unit that you're thinking about, and the main standards that you're looking for, I typically start with the Next Generation Science Standards. So yes, the Engineering Design Process is a Next Generation Science Standards. But I look at the other science standards to see if there are problems that we can solve that all of them work again for the Engineering Design Process. So I look at the one that I really want to assess. And of course, I integrate the other content areas as well. So how are students going to be reading informational texts? How are they going to be writing about their thinking? How are they going to respond digitally, which are common core standards? What math standards? Am I working on Mathematical Practices, so I list all of those there, those are all woven in any materials that I need. And those usually I pop in at the end once I think about those materials that might be needed. And then I go through each of the steps. So you'll see that there's little question stems, it'll help you think through that. 


Naomi Meredith  08:00

The second one is a poster that I created and have in my classroom, which you will be twins with me. And it's just each of the steps and how I combined some of them. So you notice that experiment and prove are together on the same step. Because when you think about it with kids, you're always experimenting, you're always improving. So I don't have them as separate steps, which you might see in other posters, because that is a step that goes back and forth the whole time. It's simultaneous. So you'll notice this little icon to trigger things with step you're on with kids maybe even have a little clip, and you can clip on which step that you are at, or even kids have their own poster. And they can clip where they're at as well. Of course, you go back and forth through the stages. So don't think oh, we already imagined we're not going to do imagining again, you always can go back to those stages. So I hope that you find these resources helpful while you are navigating this standard and making meaningful lessons. This is probably your most favorite part is how have students actually use seesaw to enhance the Engineering Design Process? Are there student examples? Can it be done? The short answer is yes. And I will show you those different examples of how students have tackled this in many different ways. Now the first stage of the Engineering Design Process is that you ask a question when I first started writing questions, I used to write them can you build blah, blah, blah, blah, blah. Okay, so when I was thinking about it, can you can you is a yes or no response. 


Naomi Meredith  09:38

Can you build this? Yes or no? Maybe, and so wasn't really open-ended and it really closed off the thinking of the challenge. Now students didn't really notice that at first, some of the older students did with the wording, but it really closed off the experience. So when you are writing questions, write them instead by using how can and that really opens up the possibilities. Because you're not teaching a cooking lesson, you're not teaching an arts and crafts, it shouldn't all look the same. It should look different because you're igniting that creativity. So think about that questioning. Also, when writing questions, there are lots of ways to do this. Depending on your time, you might actually want to provide the question. There was a point when I was teaching STEM for only three days of the week. And so we really didn't have the time to develop a question together. Wow. So I would provide that open ended question that we're trying to solve. Now, depending on your time classroom, teachers, you can integrate this throughout the day, which is amazing. You could develop the question together so you can provide How can and then maybe the topic, and then you guys think about the problem you're trying to solve? Sometimes with those integrated units, you might even have a question that kids have been thinking about already things that have popped up. So this could lead into an engineering design challenge. 


Naomi Meredith  11:03

So it can bring that challenge level up more. Now if you're thinking about differentiation, you could write two part questions for students who need more of a challenge. The way I teach the imagining stage in the Engineering Design Process for primary and intermediate students, is fairly similar, but with a variety of resources. I will often pre research the topics, again to save time, and students have a lot of choice within the resources that I provide them. So we'll do some imagine just to help build that background, and they understand the problem even further. I'll provide images that are from real life. So a great resource is Unsplash and their high quality photos. So for one of our challenges, we were learning about boats, and so I provided different images of boats to give the that inspiration. I also will use things like podcasts with students, there's some great ones like brains on tumble science are some great ones to build some background, lots of videos, little video clips, and they might explain the science concept or maybe take kids to the place that we are learning about. Also get epic epic books have a lot of great kid resources, I'll create collections for students, and they can explore within that collection to help them research. So really guiding them toward that direction, giving them that choice. I also want to make sure to hold students accountable for their learning nothing crazy. So you can see that these response sheets are very similar, there's just two different ways to respond. So they might be able to respond by writing and seesaw makes it easy with the typing tool. They can also respond by recording their voice, so that's a lot easier for them. And then they can also draw their thinking. So drawing and labeling their thinking you is seeing those drawing tools, or they might draw on a separate piece of paper, take a picture and insert it into that box. You notice there's QR codes and you obviously can't scan a QR code on the iPad that you're using. This might be something that I print out these are actually videos linked to YouTube at my school they are YouTube is blocked, so will actually watch a video as a class, respond to that video, watch the other video as a class and respond to that video. So using those outside resources to fill that background to build understanding to know why they're solving this problem and what is going on. And just giving them those opportunities to explore things that are at their level. So this can be of course again everything can be differentiated based on the needs of your students and the things that you have available. 


Naomi Meredith  11:03

So it can be as guided or as open-ended as you want, when it comes to that questioning part. Now, like I said, I typically will write the questions ahead of time just for time, I see them a very limited time during the month. And so we will dive more into the other stages. So on the left, we have the fishing pole challenge, how can you create a fishing pole to help catch the fish? This is the challenge that I did with my first graders. And then on the right we have the build a shelter challenge, how can you create a shelter that will withstand different types of weather? Now, they seem very similar. They have that how can and they're more open ended. But there is a big difference when you're writing for primary and you're writing for second secondary students or those intermediate students in elementary. So typically, what I have found be helpful with those younger students is that you have a one part questions. So yes, their creations will have lots of different things in them, but they're answering one question. For the older students. This is a two part question, can they create a shelter? And can that shelter withstand types of weather we have three types of weather they're trying to withstand. So there's two things that they have to answer and focus on. 


Naomi Meredith  14:54

Planning is so important at any stage when you're doing a project, and the planning doesn't have to be super intense. So if you're thinking about how much time that you have planning can be quick, it doesn't always have to be drawing. So I'm going to show you drawing examples. But if you are super pressed for time, I've done this before in a class, I've done a 45 minute session with the Engineering Design Process with younger students. And so far part of the plan I showed the students the materials that they'll be using, and then with their partner, they were talking about the five that they wanted to use. And that was their plan. So they were thinking about it ahead of time. So it can be as involved as you would like. Now the great part about this planning stage in the Engineering Design Process is I relate this a lot to the writing process. And so this is a time to really think about your ideas, you might not do exactly what you draw or talk about. But it's a way to get your brain thinking of lots of different ways. This example here is a student, one in Seesaw sent them this planning sheet. And the wonderful thing about the drawing tool is that it's endless colors. My first week teaching Stan I had somebody eat crayons, the kids were crying because we wouldn't share the crayons, you stuffed him in his mouth. And then you split them all back in the bucket. So nobody could have crayons. So that doesn't have to happen with the Seesaw drawing tools. So this is super great. Ahead of time you notice on the side, the materials that we're going to use, I actually put on there real pictures of the things and the labels. Sometimes the kids, it depends on how you can make it you could make the labels movable with the pictures. And so there's some ways that you can do that. And students can actually move and label the things that they have drawn. Or you can leave it stagnant like this. And students can draw lines to what they are showing. So this will help especially the younger students to make sure that they are using everything that is provided, are you just thinking of a way that it can be used, not required to use all the materials, but just ways that they can add more details to their plans. 


Naomi Meredith  18:34

For older students, depending on the unit, my first few units I typically do, we do focus a lot on the planning stage. And so this was an example of how a project we were doing of designing a hiking backpack. And so students actually drew their designs on a piece of paper just with the devices that we have, it wasn't as easy to draw on the actual device. So planning on paper is a okay, that's why you have the picture taking tool in Seaside and you can upload it that way, I would really wanted students to focus on the different parts of their designs. And trust me, I did not draw this I can't draw. Mine looks like the other one the the Kindergarten example. So students were drawing their plans, they were labeling their designs and the purpose of those plans, I wanted them to also think about multiple views of their designs. Now I should have put it on here. This plan actually came to life and that student built it out pretty similar to what they had decided on which was pretty amazing. Now if you're like well, we only have Chromebooks, we only have devices with a front facing camera. One little hack you can do is have students turn in the papers to you at the end of class or have them lay them all out on a table. So lay them side by side. And then if you just use your phone, download the Sisa app really quick. And then you go and take a picture for each of the students and add it to their account. It really takes about five minutes you can probably get a better picture than then holding it up to the camera all awkwardly and you see their eyeballs popping out, you know what I'm talking about. If you have your kids do that, I still do sometimes. But if you want a more clear picture like this, that's a great hack. If you want to be the kid's favorite teacher at school, having to build some things that create stage of the Engineering Design Process is so much fun. And this is the stage that kids thrive for. And they love it. And you don't need a whole lot of materials to get started. Once they have started their plan, they have something in mind, this is where the magic happens. For sure. 


Naomi Meredith  20:35

Now, there isn't a whole lot in the create stage students might do, because they are obviously creating, but you can definitely use these as still as an asset to help them with their creating process. Now on the left is a final picture that a student uploaded into their seesaw journal. So that definitely can be something you can include of their final design. So it was protect the food challenge. So how can you create something that will help you protect the food when staying the night in nature, so there's the little bear and that's their invention, so they can't get the popcorn. On the right, what I actually sent the students in seesaw is a strategy of building cardboard technique that they could have used to improve their design. So this is a video of when you download the slides and click this photo, it takes you to the video if you want to check it out. But it is an L brace technique. So it's just the way to make cardboard stronger. And you notice on the left that student actually use that technique. So I don't force students to use techniques that I teach. However, it's just a strategy to help them improve. So that's a great way that you can include videos. Now a tip for creating videos like this one, when it is a technique, I actually record without sound that way students can watch it over and over again, they don't need headphones. And they're just paying attention to the visual process of something being created. And this is also great, because there's no language barriers, it's all visual. And so they can watch this as many times as needed. For a project that involves robots, or even older students or things that have multi steps. Again, sending them those tips are very, very helpful. I've noticed that with the older students, there's a whole lot of differences of as you get into the projects, and they are more used to the Engineering Design Process. 


Naomi Meredith  22:22

If you've used it a lot of times, they might, some students might be ready to move on to the Create stage when others are still needing to plan one more day. So if you have these teacher tips available, this will help kids be successful independent on their own. So this project is a Sphero project. And they're creating with using Sphero. Sphero is that little ball robot. And so there are some tricky steps that just connecting the robot in general, it doesn't even have to do with the designing part. But I include these tips. So if they are working ahead on their own, or if they are working in a group, and I've already shown the steps, or if a student is absent or even if you want to do this at home, they have these available in their seaside journal, and they can refer to it right away. So they don't have to wait on me. They don't have to take the picture themselves. Like what was that? Again, they can just look in their seaside journal, and it's right there. On the left is a different video No, I did make this ahead of time I use Sphero for quite a few lessons. So if you know you're going to use the tool many times, or if your partner teachers are going to use the same tool, if you make a video tutorial of those steps in detail and just kind of take some time, I will play that video as a whole class has my mini lesson. And then I also send it to kids and their seesaw journals so they can access that as well. This video does have my voice because they do need to hear what I am clicking on. But just a way that how you can really use video to enhance and you can be in more places than one during that creation process. So think about those things that students might need you personally make a video or send them pictures and then you can be in more places than once. Once students have created their design, they are ready to experiment and improve along the way. Now, like I said, with the resources, experimenting, improving will happen simultaneously. And so that might be a quick back and forth process, especially with the younger students, they immediately see if something's going wrong, I need to fix it right away. So this is a great opportunity, especially if the projects are really messy or awkward. If it involves water. During this stage, you can have the support by walking around as a teacher, but also you might be the one who wants to film and take videos of the students putting their designs in action. This is an example of a boat when we were helping the gingerbread man travel across the river so if he thought a little more smart, he could have designed an invention so he didn't get eaten which he didn't want to get eaten me most Okay, so I was taking video of the kids testing their designs, and I didn't want them to have an iPad around the water. So this worked out great. So if you see that top box, that black box in the corner, if you click on that, when you download the slides, you can see the little boat moving around. So it's cute, you can hear their voices, it's great for the parents to see also, they can get that perspective of a different type of learning that's happening in your classroom, because, of course, you know, they're going home and sharing this, but it's cool for the parents to see it really quick. And you might actually take quicker videos than the kids. With older students. 


Naomi Meredith  25:36

Again, I will also go around and take videos, sometimes they're better at being more independent at that stage. But again, if it's super messy, I'll do that stuff just to keep the devices safe. But with those older students, and they have those two part questions anyway with their designs, but I will give them a modification and testing checklist. And they will have this beforehand. So while they're creating, they're thinking about how they can improve anyway. And so this isn't always a mystery to them. And sometimes they might even help me make that checklist and improve it and things that should be added, which is super awesome. And so for this one with a build a shelter challenge that we saw in another session is that they were building a shelter to withstand the elements. And so yes, they built a shelter but cannot withstand the elements. So before they actually tested their design, I have some guests if it would withstand and it's okay if it were all yeses, but we are trying to make their designs even better. Now one of the stations was water as well, I just love using water, obviously, I did have students tickets picture before and a picture after. And then they could see how their design change or was made better. So you can see that the student didn't have a covering. So did it withstand rain or snow, but then they added a covering and something on the bottom to make it more sturdy. So implementing all of those layers, which is great, I could print these out, of course, for students, and they could check it off, not a problem. But it's just adding in that extra element to bring their creations to life and sharing their learning and interacting with their work in a way that they might not have had before. 


Naomi Meredith  27:18

The sharing part of the Engineering Design Process, you really don't want to skip and especially when it involves that reflection piece. This could be when you're thinking about planning your projects that you really focus in on a certain unit and have students share the and reflect on their designs. Because that reflection part is so important, how can they improve and get better. And also notice the things that really work well, when they're working in a group when they're testing out things. So this is always a continual process. So the Engineering Design Process isn't something like one and done, I checked it off my list. You can do this all year long. So of course, that was all the standards. But you could do this every month. And it will totally change the way that students really attack this type of thinking. So not the only way to attack problems. But it's just really great that they have different projects to express themselves with the Engineering Design Process. For younger students, I will often I encourage them to type their thinking when they are answering reflection questions. Of course I have, right the sounds you hear. So it's totally fine. Even having kids have these questions up on their screen and seesaw and using them as sentence frames, and they can record their voice. On top of that, that which is excellent. They have the sentence frame right there in front of them. And they can go to a quiet spot and record how the project went. On the right hand side is actually a student recording. So when you click on the slides, you can listen to the voice. I wish he used the arrow to point to everything, but have students take a picture of their work and then again, go to a quiet spot. And they can record how their project work. 


Naomi Meredith  28:55

So this was another food protection challenge invention. And he explained all the process of how this whole design works, which was really great. The thing I like about having kids record over a picture is that they can do that later on. So they could take a picture one day, and then the next day they can record their voice. Maybe you have a designated recording station and students take turns so that there's not all this screaming and excitement because there is when you're doing challenges like this, but you could hear what students are working on. With this one again, I added more detailed questions. So more challenging questions for older students to think about. There is a video of at the top of a robot prototype and action and I think I was watching it you can hear my voice at the end I was very impressed because it stayed on the track the whole time. So that was super exciting. So we posted that video. And then having those pictures of things in action are really great. What I love is that students can also comment on one another's work so that could be a whole lesson of how students can Give one another feedback on how their design work. This is a game design. And so students gave feedback to each other's work on how well the game was played. And if it actually made sense. And some of the parents even have their child started commenting other work as well, which was super amazing. The seesaw blog is also another opportunity where you can share work to other audiences. So students younger or older, could share with their book buddies, or if you're connected with other classes as well. So don't skip that sharing piece. It's super important for students to reflect and make meaning of the work that they did. When thinking through lessons that you want to implement the Engineering Design Process and integrating seesaw, there isn't a whole lot of supplies and resources that you need. In fact, you can just start with donations of general recycled materials, so cardboard tubes, then cardboard, construction paper, anything you have on hand will work just as well. So don't feel like you need anything fancy. But if you do want some fancy things, I have provided you my suggestions, my top 20 favorite STEM tools to integrate into any classroom setting. So these are things that have various price ranges. And you might even have some of these at home or even ask for some grants or different ways to gather these items in your classroom and build up a whole little STEM collection. And of course, don't forget to also download your brainstorm planning guide for the Engineering Design Process, and then your poster that you can use with your students. As you can already tell, this presentation has a ton of visuals, and I bet you are dying. To see all of the examples and handouts from this presentation. You can grab the video recording of this episode, the video slides that I referenced throughout student examples and bonuses for only $5. That's less than a fancy cup of coffee. The bonus includes my Engineering Design Process posters of various sizes and planning sheets to help you with your integration with seesaw or really any other edtech tool that you use in your classroom. This will be linked to the show notes and you can check it out all here Naomi meredith.com/seesawEDPvideoreplay.

integrating Seesaw

 

Related Episodes/Blog Posts:

 

Connect with Naomi Meredith:

 

More About your host, Naomi Meredith

Naomi Meredith is a former classroom teacher turned current K-5 STEM teacher and coach. Her role not only includes teaching over 500 students in her school, but also leading professional development and co-teaching with teachers to help them integrate STEM & Technology.

With over a decade of experience along with a M.Ed. in STEM Leadership and STEM certificate, she helps teachers navigate the best practices, strategies and tools out there.

She truly believes that any teacher out there can learn how to use STEM & Technology in their classrooms effectively. She can’t wait to connect with you and be your guide!

More About The Elementary STEM Coach Podcast

Are you tired of scrolling online for your next great STEM lesson? Do you feel like there is no time to plan, research and test meaningful STEM lessons, so you throw together a hands-on activity and hope that it works? What systems and routines should you set in place to help students be creative, critically think, and collaborate? 

The Elementary STEM Coach is a podcast for K-5 STEM teachers, classroom teachers, GT specialists, and homeschool parents looking for actionable STEM solutions. Each week, Naomi Meredith will share tools, resources and lesson ideas that are actionable in your classroom and create highly engaging experiences with your students. You’ll learn systems and routines that will create control in the chaos and that will keep you organized all year long. 

Your mindless scrolling days are over! Your new STEM-best friend is now here in your ear buds!

helping-students-improve-stem-projects

Helping Students Improve STEM Projects [EDP Series: Experiment & Improve, Ep. 20]

Helping Students Improve STEM Projects [EDP Series: Experiment & Improve, Ep. 20]

helping-students-improve-stem-projects

Check out the full episode on Helping Students Improve STEM Projects:  

 

Subscribe to the podcast HERE on your favorite podcasting platform.

Episode Summary

As students are building their STEM projects, are you unsure of ways they can improve their designs?

The experiment and improve stage of the Engineering Design Process is so important to teach kids that things might not be perfect the first time, and there are always ways to make them better.

In this episode, I will be sharing with you strategies that you can use with your students to help them improve and modify their designs.

 

In this episode, you’ll learn strategies to help students improve their STEM projects:

  • Using a modification checklist
  • Create a rubric for each STEM project
  • Give students opportunities to show what happened in their project

Resources Mentioned:

Episode Transcript: 

00:00

As students are building their STEM projects, are you unsure of ways they can improve their designs? When students come up to you, and they say, “I'm done,” do you say, “Oh, now go and just add more details.” In this episode, I will be sharing with you strategies that you can use with your students to help them improve and modify their designs. 


00:53

I can't believe we have already made it to Episode 20. It has been so much fun recording these podcasts and creating episodes that you can immediately apply to your classroom. I am excited about how far this podcast has come and what is in store for the future. Trust me, I have a ton of ideas brewing. So lots more fun to be had in the future. If you haven't grabbed it already, I have a free Engineering Design Process poster and planning guide that you can download for your classroom. You can grab that at Naomimeredith.com/podcastEDP. I'll also link it in the show notes. 


01:36

I know I've talked about this before, but I like comparing the Engineering Design Process to the writing process because there are a lot of similarities between those two processes. Being a former classroom teacher, that is just something that has stuck in my brain after teaching it for so many years before becoming a STEM teacher. The experiment and improve stage of the Engineering Design Process is similar to the editing stage within the writing process. It is the process for both of these things. A growth mindset that I like to teach my students in my classroom is that practice makes better, not perfect. Everything can be improved, even when you think you're done. This step in the Engineering Design Process is so important to teach kids that things might not be perfect the first time, and there are always ways to make them better. 


02:30

Here are some strategies that I like to use in this stage to make it more impactful and meaningful for students. These strategies keep me from rushing and running out of ideas for kids to make things better, or, after they build something, I don't just send them off to go do a fun activity. This stage in the Engineering Design Process can be very beneficial with some careful planning. 


02:54

The first way that you can enhance the experiment and improve stage is to use a modification checklist. Now, in my first year teaching STEM, I was completely lost on this. I was feeling probably like you are like I have no idea where to even begin with a checklist. I don't even know how the projects are going to turn out. Trust me, I was in your shoes, and I'm in those shoes whenever I'm starting new projects. So here's a little tip that has worked for me. When starting a new project, I will create an anchor chart of ways students can improve their designs as students are working. So with observations and how their projects are going, I will add to this anchor chart and list. I even get feedback from students as to what they would like to add to this list to help the future classes that I'm going to teach. Using the student feedback has been a game changer because I might think the project is going to go one way, but the way students are interacting with the lesson and the supplies are going in a completely different direction. I will always take their feedback when it comes to these checklists. 


04:03

In fact, when I was teaching STEM survival camp for fifth grade, the checklists for the build a shelter design was actually fully developed by my fifth graders. They had the checklist I'd given them, and they were writing all over it and adding in their own categories since I didn't design it in a way that worked best for them. So I recreated that checklist based on their feedback. My fifth graders really liked the layout because kids like them helped me create it. Now, years later, being in this position of K through five STEM, I have created my full year-long plan when it comes to engineering design challenges. Each challenge has different checklists included already, so you don't have to think about them. They are all done for you. There are even checklists for the little kids. 


04:54

For example, with my first graders for a unit, we were talking about Earthlight and light living things. What is that fancy word? Bioluminescent. The kids love learning this word and the meaning behind it. They sounded so fancy when they were sharing this with their teacher when they picked them up for the day. Students were to create their own living thing, either one that already exists or a living thing that would be enhanced if it did give off its own light and the reason behind that light. They were given a checklist the second day of creating, and there were just three lines in this checklist with a thumbs up, and a thumbs down that they could circle on the piece of paper or within Seesaw when I sent it to them digitally. These things weren't required for them, but I did say they had to do at least one of these three things when they were thinking about improving their design. On this checklist, those three things were does your living thing live in water? Does your living thing fly? And does your living thing eat other animals? So this was interesting for them to really think about who their animal was and even the purpose behind the light that they gave them. My example was that I would love it if my little dog Frederick's ears glowed. They had that bioluminescence, so when we're going on walks, he can see more clearly where we're going, and I can also see when I have to pick up his poop. Sorry, super gross TMI right there. 


06:30

Also, when I give checklists to my older kids, I give them those things on the checklist that they may or may not have to do. It depends on the project and the purpose behind the project. There's a space on the side where they can actually explain how the modifications made their design even better. When it comes to my 3D printing lessons, there are specific things they have to do within their project so that it will print correctly. Most of the things on the modification checklist have to be yes before they turn it in. However, there are other projects that we do where only a couple have to be a yes, and the rest are just ways that they can make their design even better. 


07:13

In addition to the checklist, another way that you can enhance your experiment and improve stage with the Engineering Design Process is the use of rubrics. You can use this instead of checklists or in addition to. If I were to use both, especially if I were to give grades within the STEM space, I would have students use the checklist when they are creating and experimenting, and improving. Then, when we are finished with the building stage, and this might even happen on the last day right before we share,  students are given that rubric, and they can reflect on the work that they did within this project. So they might even be done experimenting and improving, and they're thinking about how they really attacked those things. You can use a lot of the same things, even from the checklist, especially if you are planning with standards, which you should be anyway. But you can add some of those elements within your rubric. 


08:14

If I were to create a rubric for my STEM classroom, I would have it on a four-point scale, the one would be categorized as I am missing some things. This is if students really struggled in completing the project. Hopefully, they're not in that one category. Or maybe they were absent, so I would actually leave this part of the rubric blank so students could write in their responses, or I could add my responses. The two category would be I can do it with support. So those would be those qualifications that students were below grade level and had most of those things, but they have some holes. The three would be I can complete the project. So those would be all those qualifiers that are at grade level. They can demonstrate an understanding of the standard and the project. The four would be I can extend my learning. I also like to leave this blank. Or, if I know some ways students can extend their learning, I might write those in as well. So having that four-point scale would be really helpful, and have it written in student-friendly language, so it's not a surprise for them as to how they did on their project. This could be a great addition to the stage of the Engineering Design Process. 


09:34

Another thing too, when you're creating this rubric, I would think about the process first, then the product. I would have both within your rubric. So part of those qualifiers on your rubric you could talk about is did they demonstrate certain processes within the project. So learning a new skill when they are working on the project. The product could actually be how they demonstrate the state standard when attacking this challenge. Having a combination of both, which is really important in STEM. Are they understanding the standards? How are they learning new skills within STEM? Whether it's 3D printing or Makerspace coding, how are they demonstrating mastery within those? If you're interested in more things about grading, we could talk about that in the future. I will say I don't actually give grades in my STEM space. But this is the process I would use if I had to do that. So definitely something to consider and talk about when you're thinking about rubrics. 


10:38

Finally, the third way to enhance your experiment and improve stage is to give students the opportunity to show what happens. My two favorite platforms to use within the classroom, and especially in STEM classrooms, are Seesaw and Flipgrid. Both are very similar, but they also have differences. Having these platforms in your classroom is super beneficial for families to see what takes place within your classroom. We know that kids can't always take home the awesome supplies that they're using in STEM. Of course, they really want to, especially LEGO minifigs that go missing. Those never come back. But kids always want to share all the cool things that we did. These platforms are a great way for students to bring those experiences home through video, photos, and audio. Also, when you use these platforms, this is also a great way to keep kids accountable for the work and make sure that they are staying on task and completing the project. 


11:40

One of my first favorite ways is for students to use video during this improve and experiment stage. A big way that I used it with my fifth graders is when they were creating Rube Goldberg Ecosystems. Every time they were testing their design, I wanted them to take a video of inaction, whether it worked or not. It was great for them to have video evidence of their actual experiment. This was also helpful because they could go back and watch what happened the day before and set it up the same way or differently, depending on the results within their Seesaw journal. They had an abundance of videos to go back and reflect on, and this actually helped them when they came into the share stage when we talked about the project throughout the week. 


12:27

Another way that I've used video within an engineering design project was in second grade. They were working on animal migration Ozobots. Ozobots are those tiny little robots that read color codes when you color them with markers or use the stickers provided. Beforehand, students researched the migration patterns of different animals and understood why they were migrating and how that affected them. Students created the path of the migration within the maps that were provided. I wanted students to film the process of their code and action. It's so cute to see them filming this because you can see them experiment within the video when the code doesn't work. They'll pick up the robot and put it where it needs to go. Again, I wanted them to take more than one video so that if their code doesn't work, they could create a new coding sheet on a new map and then record it. So these are just two great examples of experimenting and improving within your STEM lessons. 


13:31

Sometimes video might not be the best fit to share. This is when photos are a great opportunity. Of course, you can have students take pictures of their work but if their invention is supposed to do something, consider having students take before and after photos. Again, in another second-grade lesson, I had students create an invention to help control the effects of water erosion. We actually tested this using dirt that we found outside, so there was a hill I took students out on, and I wanted them actually to test their invention with the water that we brought. Before taking the students outside, I had them take a picture of their invention before it got wet. Then some kids even went on to explain with audio how their invention was going to work. I then had students bring their inventions back into the classroom. After we tested them using the water and the dirt, they took an after photo and then explained what actually happened. I didn't want the iPads outside with the dirt, so that's why I had them bring the inventions back in. 


14:42

If there are before and after opportunities, consider taking photos. If you're doing projects that are all computer-based, there are some platforms that allow students to do screen recordings. This would be really cool if students are creating a code for a game or if they're 3D printing. They can actually film their screen in real-time and play it back on a hyperlapse to see the progression of their projects along the way. On the flip side, when you're thinking about teacher management, it would be great to keep kids accountable and ensure that they're staying on the screen that they're supposed to stay on. A great platform for students to use for screen recording is Screencastify. They have come out with a whole classroom set. You definitely should check that out because I love using Screencastify as a teacher, but it would be a cool asset to use for your older students when it comes to screen recording. Wii video is another platform that allows screen recording capabilities. So definitely check out those platforms and see how you can fit that in when students are designing digitally. 


15:49

As a recap, here are ways to help your students improve their STEM projects when you are in the experiment and improve stage. First, consider using a modification checklist. Next, create rubrics. Third, give students opportunities to show what happens. We have one more stage left in this mini-series about the Engineering Design Process. So thank you so much for joining me on this journey. Make sure to grab your free Engineering Design Process poster and Planning Guide, which is linked in the show notes and are also found at this direct link: Naomimeredith.com/podcastEDP.

helping-students-improve-stem-projects

helping-students-improve-stem-projects

helping-students-improve-stem-projects

helping-students-improve-stem-projects

 

 

 

Related Episodes/Blog Posts:

Connect with Naomi Meredith:

 

More About your host, Naomi Meredith

Naomi Meredith is a former classroom teacher turned current K-5 STEM teacher and coach. Her role not only includes teaching over 500 students in her school, but also leading professional development and co-teaching with teachers to help them integrate STEM & Technology.

With over a decade of experience along with a M.Ed. in STEM Leadership and STEM certificate, she helps teachers navigate the best practices, strategies and tools out there.

She truly believes that any teacher out there can learn how to use STEM & Technology in their classrooms effectively. She can’t wait to connect with you and be your guide!

More About The Elementary STEM Coach Podcast

Are you tired of scrolling online for your next great STEM lesson? Do you feel like there is no time to plan, research and test meaningful STEM lessons, so you throw together a hands-on activity and hope that it works? What systems and routines should you set in place to help students be creative, critically think, and collaborate? 

The Elementary STEM Coach is a podcast for K-5 STEM teachers, classroom teachers, GT specialists, and homeschool parents looking for actionable STEM solutions. Each week, Naomi Meredith will share tools, resources and lesson ideas that are actionable in your classroom and create highly engaging experiences with your students. You’ll learn systems and routines that will create control in the chaos and that will keep you organized all year long. 

Your mindless scrolling days are over! Your new STEM-best friend is now here in your ear buds!