As the person on the merry-go-round accelerates through the center, they will experience a centripetal force directed towards the center of the merry-go-round. This force is responsible for keeping them moving in a circular path. If the acceleration is constant, the person will feel a consistent pull towards the center as they rotate around.
That's a true statement ... but not in the way you think. "Accelerating" is NOT necessarily the same thing as "speeding up".
False. A person on a merry-go-round is not constantly accelerating towards the center. The person is experiencing centripetal acceleration, which is directed towards the center of the merry-go-round, but it is not a continuous increase in speed or velocity.
true:apex
False
True. On a merry-go-round, a person is constantly changing direction as the ride rotates. This is because the person is moving in a circular path, and the direction of their motion changes as they go around the center of the ride.
That's a true statement ... but not in the way you think. "Accelerating" is NOT necessarily the same thing as "speeding up".
False. A person on a merry-go-round is not constantly accelerating towards the center. The person is experiencing centripetal acceleration, which is directed towards the center of the merry-go-round, but it is not a continuous increase in speed or velocity.
true:apex
False
A person on a merry-go-round is constantly accelerating away from the center, because he is prevented by the horse or bench from continuing on a straight path. His velocity constantly changes in direction.
True. On a merry-go-round, a person is constantly changing direction as the ride rotates. This is because the person is moving in a circular path, and the direction of their motion changes as they go around the center of the ride.
True. A person on a merry-go-round is constantly changing direction as the ride rotates. The merry-go-round's circular motion causes the person to experience a continuous change in the direction they are facing. As the ride spins, the centripetal force acts on the person, pulling them towards the center of the circular path, leading to a constant change in their orientation.
Even though the person is moving at a constant speed, they are changing direction constantly as they go around the track. Since acceleration is defined as any change in velocity, and velocity includes both speed and direction, the person running on a circular track is experiencing acceleration.
Until a straight line from his center of gravity to the center of the Earth no longer passes through his footprints on the ground.
No. they must be increasing speed to accelerate.
No. An object is accelerating if it is changing speed or direction of travel. Since the person in question is running at a constant speed in a straight line, they are not accelerating.
When you constantly think of the person. When you wish to be around the person.