Yes. If there weren't, it would stay up there.
The force of gravity acts on the ball ALL of the time, and once the ball
leaves your hand, the force of gravity controls the motion of the ball.
If air resistance can be neglected, the acceleration of a ball tossed straight upward is the same as when it is dropped - both experience a gravitational acceleration of 9.81 m/s^2 downward. The initial velocity of the tossed ball would cause it to momentarily counteract the acceleration and then eventually slow down and reverse direction due to gravity.
As the coin is tossed upward, its velocity decreases due to the pull of gravity working against it. At the peak of its ascent, the velocity momentarily drops to zero before it starts descending back down.
The acceleration is always directed downward due to gravity. At the highest point, the acceleration is still acting downward, but its magnitude is zero as the ball momentarily stops before descending back down.
At the top of its path, an upwardly tossed coin experiences two forces: gravity pulling it downward and air resistance pushing against its upward motion. These forces can slow down the coin's upward movement and eventually cause it to fall back down.
As the coin is tossed upwards, its velocity decreases until it reaches its highest point where it momentarily stops before coming back down. The acceleration due to gravity is acting against the coin's motion, causing it to decelerate while ascending.
If air resistance can be neglected, the acceleration of a ball tossed straight upward is the same as when it is dropped - both experience a gravitational acceleration of 9.81 m/s^2 downward. The initial velocity of the tossed ball would cause it to momentarily counteract the acceleration and then eventually slow down and reverse direction due to gravity.
As the coin is tossed upward, its velocity decreases due to the pull of gravity working against it. At the peak of its ascent, the velocity momentarily drops to zero before it starts descending back down.
At the top of its path, an upwardly tossed coin experiences two forces: gravity pulling it downward and air resistance pushing against its upward motion. These forces can slow down the coin's upward movement and eventually cause it to fall back down.
The acceleration is always directed downward due to gravity. At the highest point, the acceleration is still acting downward, but its magnitude is zero as the ball momentarily stops before descending back down.
As the coin is tossed upwards, its velocity decreases until it reaches its highest point where it momentarily stops before coming back down. The acceleration due to gravity is acting against the coin's motion, causing it to decelerate while ascending.
Tossed - Toased
at its highest point, when it stops and starts to fall back
at its highest point, when it stops and starts to fall back
The force acting on the rock when it is tossed on the moon is gravity. Gravity is responsible for keeping the rock in orbit around the moon and causing it to follow a curved path as it falls towards the surface.
tossed
The suffix for tossed is ed
That would depend on which angle the ball is thrown at, straight up, horizontal or somewhere inbetween.