Ball Rolling Down A Track

And most of all i love the quaility and safety of this german made toy.

Ball rolling down a track.

Rolling ball guide the ball and keep it on the track to reach the finish line. So you get the following. As a guide the track looks nice with at least three peaks and three valleys. Wavy track this track consists or several up and down sections of track.

Racing a cart down a ramp. Watch this video till the end to get access to more free science expe. The track can be either straight or curved. The answer is b.

So when you roll a ball down a ramp it has the most potential energy when it is at the top and this potential energy is converted to both translational and rotational kinetic energy as it rolls. When it returns to its original level it slows down to its original horizontal speed but in so. I am very impressed with the ball track roll n roll n roll. The more waves in the track the greater the fall required.

And the acceleration along the ramp is. You will need a little rotational velocity or at least a slight downward ramp to the track to start the ball moving otherwise gravity pulls it straight down and there it will sit when it hits the track. This works out to v f 7 0 meters second or a little under 16 miles hour. As the ball on the dipped track goes down its horizontal velocity increases so it gets ahead.

The track requires enough speed to keep the ball rolling. Why did you create the ball from a cylinder rather than revolve a half circle or better yet use the sphere command. That doesn t sound too fast until you try to stop. I know my son will get alot of play and enjoyment out of this toy for along time.

The ball on the dipped track gets to the end first and wins the race. To compare the kinetic energy of a ball rolling down a curved ramp and a striaght ramp. The displacement of the cart along the ramp s is 5 0 meters.