no it does not
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.
Friction can affect a mousetrap car in several ways. Higher friction between the wheels and the surface can reduce its speed and efficiency. Properly managing friction through wheel alignment, tire type, and surface smoothness can help improve the performance of a 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.
simple answer: no. real answer: assume that it does not, then, the friction of the wheels against the ground will not exist, leaving your car to spin its wheels quite happly without going anywhere. on second thought, your wheels would probablly not be spinning either way as to power said conventional "mouse trap car" one would generally use a string wound around the rear or frontal axis. without said friction, said string would not attach to said axis. basically, you fail, at life and beyond. As observations contradict this thought experiment, the assumed lack of friction cannot exist. Thus, friction acts upon mousetrap cars and upon your thick skull as information is shoved upon it. QED, or WWWWW
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
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.
the first one is surface and a stick underneth it
Friction can affect a mousetrap car in several ways. Higher friction between the wheels and the surface can reduce its speed and efficiency. Properly managing friction through wheel alignment, tire type, and surface smoothness can help improve the performance of a 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.
simple answer: no. real answer: assume that it does not, then, the friction of the wheels against the ground will not exist, leaving your car to spin its wheels quite happly without going anywhere. on second thought, your wheels would probablly not be spinning either way as to power said conventional "mouse trap car" one would generally use a string wound around the rear or frontal axis. without said friction, said string would not attach to said axis. basically, you fail, at life and beyond. As observations contradict this thought experiment, the assumed lack of friction cannot exist. Thus, friction acts upon mousetrap cars and upon your thick skull as information is shoved upon it. QED, or WWWWW
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, tape can cause friction on the wheels of a mousetrap car, especially if it is not smooth or if there are imperfections in the tape. It is important to use low-friction materials to ensure that the mousetrap car can move smoothly and efficiently.
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.
The two types of friction affecting mouse trap cars are rolling friction, which occurs when the wheels of the car are in contact with the surface, and sliding friction, which occurs between the moving parts of the car, such as the axles and the mousetrap mechanism. These frictional forces can affect the efficiency and speed of the mouse trap car.
friction, air resistance and gravity