hyundai_hybrid_model_car.pptx | |
File Size: | 792 kb |
File Type: | pptx |
Reflection:
Through this project I learned many knew concepts and skills. Going into this project I didn't know a lot about cars, but coming out I definitely learned many things about cars. One skill I learned was how to power a car and to make stop on its own. This project was a fun way to learn new things and how to create cars.
From this project I learned that not everything works when you want it to and that patience is a key component. I believe that patience is something I can improve on and will improve on in my next project. Being prepared for my presentation by going over who is going to say what, is also something I will work on for my next project.
Physics:
Spring Constant:
Spring Constant= Distance Of The Spring Not Stretched/ The Force
Our spring constant was 10.7
Velocity:
Velocity= Distance / Time
Our velocity was 1.1 m/s
Below are the graphs for our car's Potential,Kinetic, and Thermal Energy. Also a graph of its Distance over Time, and its Velocity over Time.
Through this project I learned many knew concepts and skills. Going into this project I didn't know a lot about cars, but coming out I definitely learned many things about cars. One skill I learned was how to power a car and to make stop on its own. This project was a fun way to learn new things and how to create cars.
From this project I learned that not everything works when you want it to and that patience is a key component. I believe that patience is something I can improve on and will improve on in my next project. Being prepared for my presentation by going over who is going to say what, is also something I will work on for my next project.
Physics:
Spring Constant:
Spring Constant= Distance Of The Spring Not Stretched/ The Force
Our spring constant was 10.7
Velocity:
Velocity= Distance / Time
Our velocity was 1.1 m/s
Below are the graphs for our car's Potential,Kinetic, and Thermal Energy. Also a graph of its Distance over Time, and its Velocity over Time.
Materials:
1 Rectangular piece of wood
4 smaller rectangular pieces of wood
7 thin/long rubber bands for power
6 thick rubber bands for traction
2 tinker toy wheels
100 pennies
1 thumb tacks
4 metal hooks for wheel and axle
How It Was Made:
First we cut out a rectangular piece of wood for the base. Then, we cut out four pieces of smaller rectangles and glue them together. After that we glued the box down to the base, add in the pennies and taped the top to seal it in. Then, attach the four metal hooks to the bottom for the wheel and axle, and then put on the tinker toy wheels. Lastly, we attached a long rectangular piece of wood to the box in the middle, where the rubber band will connect to from the wheel and axle of the front of the car. To power the car we wrapped 7 connected rubber bands around the wheel and axle.
1 Rectangular piece of wood
4 smaller rectangular pieces of wood
7 thin/long rubber bands for power
6 thick rubber bands for traction
2 tinker toy wheels
100 pennies
1 thumb tacks
4 metal hooks for wheel and axle
How It Was Made:
First we cut out a rectangular piece of wood for the base. Then, we cut out four pieces of smaller rectangles and glue them together. After that we glued the box down to the base, add in the pennies and taped the top to seal it in. Then, attach the four metal hooks to the bottom for the wheel and axle, and then put on the tinker toy wheels. Lastly, we attached a long rectangular piece of wood to the box in the middle, where the rubber band will connect to from the wheel and axle of the front of the car. To power the car we wrapped 7 connected rubber bands around the wheel and axle.