No. The force depends only on the height of the ball and on the mass of the ball. The force due to the earth's gravitional field varies inversly with the distance from the center of the earth to the center of the ball.
The horizontal motion of a falling object increases its total speed, but does not change the rate at which it loses altitude (falls). This is a function of gravity. Both the horizontal and vertical velocities would be affected by air resistance, if any.
acceleration of gravity does not depend on the mass of the falling object at all. the equation for g is: g=GM/R^2 where M is the mass of the earth.
yo moma
The horizontal velocity will be equal to the translational velocity of the ball right before it falls off the table. ============================== When we do exercises that deal with the behavior of the ball after it leaves the edge of the table, we always ignore air resistance. When we do that, the horizontal component of velocity remains constant forever, or at least until the ball hits something.
yes!.... it will affect a soccer ball when it falls because if the gravity affects you, it will affect a ball.
To take the magnitude of the velocity you will need to square both the horizontal and vertical components and then take the square root of their sum. So: V=(Vx2+Vy2)1/2
not counting variables such as wind resistance and such, no
yo moma
The horizontal velocity will be equal to the translational velocity of the ball right before it falls off the table. ============================== When we do exercises that deal with the behavior of the ball after it leaves the edge of the table, we always ignore air resistance. When we do that, the horizontal component of velocity remains constant forever, or at least until the ball hits something.
yes!.... it will affect a soccer ball when it falls because if the gravity affects you, it will affect a ball.
= Which step will the ball hit first if A ball rolls at the top of a stairway with a horizontal velocity of magnitude 5.0fts the are 8.0 in high and 8.0 in wide? =
61.41 m
To take the magnitude of the velocity you will need to square both the horizontal and vertical components and then take the square root of their sum. So: V=(Vx2+Vy2)1/2
not counting variables such as wind resistance and such, no
a ball rolled across a horizontal table moved at cont ant velocity why?
Straight up in the air. It's already moving at your speed, so it's horizontal velocity will remain constant. Vertical motion and horizontal motion don't affect each other.
If the bus is moving at a constant horizontal velocity relative to you and the ball, there is no horizontal acceleration and therefore no horizontal force. The only force acting on the ball is gravity, which is vertical, so the ball will just fall straight down next to you.
That depends on the reference we take.....If we take the velocity upwards to be +ve than the velocity downwards will be negative and vice versa....
the soccer ball in the air is at 56.o speed