/-/https/www.sciencebuddies.org/cdn/Files/21464/5/sb-logo.png){kind=logo}
/-/https/www.sciencebuddies.org/cdn/Files/21464/5/sb-logo.png){kind=logo}
Mechanical Engineering Science Projects (53 results)
|
Select a resource
Coding Projects
Sort by
|
The way humans walk—our gait—is usually fairly symmetrical. Each step we take with the left foot is similar in length and timing to the step with the right foot. This symmetry makes walking efficient and reduces stress on the muscles and joints. But what happens when the body is challenged by an uneven load, such as carrying groceries in one hand or holding a backpack on one shoulder? Biomechanics research shows that unequal weight distribution can disrupt gait symmetry, forcing one…
Read more
Think it's a good idea to stream music, watch videos, or check social media while doing homework?
Are you a thrill-seeker? Well, this is the science fair project for you! What makes a ride so thrilling that people want to ride it over and over again even though it scares them? Is it the speed, the twists and turns, the vertical drops? In this science fair project, you will build and use an accelerometer to figure out what makes a roller-coaster ride worth standing in line for. Oh, and if Mom…
Read more
Staying balanced might feel simple, but there’s so much more involved than you would think! The way your body balances is actually the result of several body systems working together. Your muscles and joints provide feedback (proprioception) about where your body is in space, your inner ear senses movement and position, and your eyes give you important visual cues about your surroundings. Vision is especially important because it helps your brain judge where you are in relation to the…
Read more
How much force is required to advance a lag bolt (large wood screw with a hex-shaped head) into a piece of wood? You can measure the force by using a spring scale attached to the handle of ratchet. Pull on the spring scale until the bolt starts to turn, and note the required force from the spring scale. There are many potential experiments you could try. Think about answering the following questions: How does the force change as the bolt advances deeper into the wood? Why? How does the…
Read more
"What?! Many of my toys are also machines?" That's right—simple machines! Simple machines are everywhere! Under your feet when you climb stairs, in your hand when you use a utensil to eat your dinner, even in your arm when you throw a ball. Come visit this science fair project and explore the six types of simple machines. Find out how many are hiding under the hinged lid (yes, another simple machine) of your toy box!
Read more
How many times have you heard from your parents: "Clean up your room!" or "Don't forget to unload the dishwasher!" By applying principles of industrial engineering and time management, you can speed through your chores and have more time to kick back and relax.
Read more
When you open up your presents on your birthday, you probably don't spend a lot of time admiring the wrapping—you'd much rather see what's inside. It can be the same way with the packaging that products come in, but packaging is important for protecting the things we buy as they make their way from the factory to our homes. How much shock force is produced when a box gets dropped accidentally? What kinds of materials work best to protect products from damage? This project can show you…
Read more
Have you ever broken a fishing rod? Or seen a treetop bend over and touch the ground (or even snap off) during an ice storm? These are examples of the effect of bending stresses on flexible rods. There are scientists who actually study this phenomenon and discover ways to prevent breakage, which leads to stronger fishing rods, building materials, car parts, and more. In this science project, you'll explore the bending stresses in flexible rods by testing asparagus stalks.
Read more
Can you build a volleyball machine? It will need one part to launch a ping pong ball over a net and another to return the ball. How many back-and-forth volleys can you get before the ball touches the ground? Looking for inspiration? You can see how other students have tackled this and other annual Science Buddies Engineering Challenges.
Teachers, lesson plan versions of this challenge are available.
Read more
Drones are small, fast, and maneuverable - this can make them very hard to knock down! Check out this Mark Rober video where he explores both how professional defense companies and some backyard YouTube engineers tackle the problem of knocking drones out of the sky. Can you take this engineering challenge on yourself? What methods can you devise to take down a drone? Which one works the best?
Drones can be expensive, and you probably do not want to risk damaging a $1,000 drone for your science…
Read more
|
/-/https/www.sciencebuddies.org/cdn/Files/20483/6/icon-flask.png){kind=icon}
/-/https/www.sciencebuddies.org/cdn/Files/21742/5/shopping-874974_1280.jpg)
/-/https/www.sciencebuddies.org/cdn/Files/3519/5/ApMech_img047.jpg)
/-/https/www.sciencebuddies.org/cdn/Files/21737/5/person-868332_1280.jpg)
/-/https/www.sciencebuddies.org/cdn/Files/3579/5/ApMech_img049.jpg)
/-/https/www.sciencebuddies.org/cdn/Files/3239/5/ApMech_img035.jpg)
/-/https/www.sciencebuddies.org/cdn/Files/20484/5/icon-gear.png){kind=icon}
/-/https/www.sciencebuddies.org/cdn/Files/12920/12/2019-engineering-challenge-project.png)
/-/https/www.sciencebuddies.org/cdn/Files/20356/6/blobid1713892499025.jpg)
/-/https/img.youtube.com/vi/WtP7sxWSF9c/0.jpg)
/-/https/img.youtube.com/vi/ptmM5xRpeNY/0.jpg)
/-/https/img.youtube.com/vi/Wg8VoLTMz1M/0.jpg)