The kinetic forces would be highest at the bottom of the hill where the speed of the object is the greatest as it descends due to the conversion of potential energy into kinetic energy.
The car will have the most kinetic energy at the bottom of the hill where it has reached its maximum speed due to gravitational acceleration. At this point, the car's kinetic energy will be at its peak before any external forces start to slow it down as it goes uphill.
The main forces involved in the ball rolling down the hill would be gravity, which is pulling the ball downhill, and friction, which is resisting the ball's motion and slowing it down. Additionally, if there's wind or air resistance, that force would also be acting on the ball.
Yes.
A force hit the rock which made it roll down the hill.
When a ball rolls down a hill, several forces are acting on it. The force of gravity pulling the ball downward is greater than the force of friction pushing against it, causing the ball to accelerate. This imbalance between the forces of gravity and friction is why the ball rolls down the hill.
Mount Everest is the highest mountain and mount Majorca is the highest hill.
Mount Everest is the highest hill in asia
The highest point of a hill is called its summit.
A real life example of kinetic energy is something........ Sike!!!!!! A ball rolling down a hill, A person typing on a keyboard.
its a hill area .....lol
san fernando hill
Oberammergau I believe, and it is a mountain not a hill.
The Highest hill in Asia is the Mt. Everest. I don't know but I tried my best :)
Highest point, hill top, hill peak.
Highest point, hill top, hill peak.
I wouldn't run out of my home, get in my car. Then, drive outside of town find the highest hill. Once I got the to the highest hill I would get a blow horn and use sign language to inform the town about the approaching doom.
Look for the point where contour lines are closest together or where the numbers on the contour lines are highest. This indicates the highest elevation on the hill.