Gravity plays a significant role in mousetrap cars by providing the force necessary to move the vehicle forward. When the mousetrap is released, the potential energy stored in the spring is converted to kinetic energy, which powers the car forward. Gravity helps the car maintain traction with the ground, enabling it to move efficiently and steadily.
Two kinds of friction affecting mousetrap cars are rolling friction, which occurs when the wheels of the car roll on a surface, and sliding friction, which occurs when the moving parts of the car rub against each other or the surface. Both types of friction can affect the speed and efficiency of the mousetrap car.
Static friction between the wheels and the ground helps provide traction for the mousetrap car to move forward. Rolling friction between the wheels and the axles can also affect the efficiency of the car's movement.
Friction plays a significant role in mousetrap cars. While excessive friction can hinder performance, having the right amount can help provide traction and grip for the wheels to turn efficiently. Properly managing and reducing friction where possible can improve the overall speed and performance of the mousetrap car.
The two types of friction that affect a mousetrap car are rolling friction, which occurs between the wheels and the surface of the ground, and sliding friction, which occurs between the axles and the wheels. Both types of friction can reduce the overall efficiency and speed of the mousetrap car.
Yes, friction will affect mousetrap cars. Higher friction between the wheels and the surface will slow down the mousetrap car, while minimizing friction through the use of low-friction wheels or lubricants can increase the distance the car can travel. It is important to reduce friction to optimize the performance of mousetrap cars.
friction, air resistance and gravity
Two kinds of friction affecting mousetrap cars are rolling friction, which occurs when the wheels of the car roll on a surface, and sliding friction, which occurs when the moving parts of the car rub against each other or the surface. Both types of friction can affect the speed and efficiency of the mousetrap car.
Static friction between the wheels and the ground helps provide traction for the mousetrap car to move forward. Rolling friction between the wheels and the axles can also affect the efficiency of the car's movement.
Old CD's work well.
Friction plays a significant role in mousetrap cars. While excessive friction can hinder performance, having the right amount can help provide traction and grip for the wheels to turn efficiently. Properly managing and reducing friction where possible can improve the overall speed and performance of the mousetrap car.
The two types of friction that affect a mousetrap car are rolling friction, which occurs between the wheels and the surface of the ground, and sliding friction, which occurs between the axles and the wheels. Both types of friction can reduce the overall efficiency and speed of the mousetrap car.
Yes, friction will affect mousetrap cars. Higher friction between the wheels and the surface will slow down the mousetrap car, while minimizing friction through the use of low-friction wheels or lubricants can increase the distance the car can travel. It is important to reduce friction to optimize the performance of mousetrap cars.
the first one is surface and a stick underneth it
Converts Power, Energy, Torque and Speed from fast and powerful to slow and energetic.
probably not i dont even think putting wheels on a mousetrap is good cuz if you do it might go down the floor someone might step on it and hert them selves
surface friction and sliding friction
The mousetrap car was invented as a fun and educational way to teach basic principles of physics and engineering, such as mechanical energy and motion. It provides a hands-on way for students to explore concepts like force, acceleration, and friction. Additionally, building and testing mousetrap cars can spark interest in STEM fields and encourage creativity in young learners.