Yes, when a ball is thrown up in the air, gravity is still acting on it. Gravity is the force that causes objects to be pulled towards the center of the Earth.
True. When a ball is thrown into the air, Earth's gravitational force causes the ball to accelerate downward, creating an unbalanced force.
The force is known as gravitational force or gravitational pull. This force pulls the ball towards the center of the Earth, causing it to accelerate downward.
The main force causing a ball to fall after being thrown into the air is gravity. Although air resistance, a form of frictional force, does play a role in slowing down the ball's motion, it is not the primary reason the ball falls back to the ground. Gravity pulls the ball downward, causing it to accelerate towards the Earth.
The force of friction is not acting upon a ball that is thrown in the air. Friction is a force that opposes motion, but when a ball is thrown in the air, there is no surface contact for friction to act upon.
The force of gravity acts on the ball as soon as it is released, causing it to accelerate downwards. This acceleration provides the ball with a curved trajectory as it moves through the air. The force of gravity also determines how quickly the ball will return to the ground after being thrown.
True. When a ball is thrown into the air, Earth's gravitational force causes the ball to accelerate downward, creating an unbalanced force.
The force is known as gravitational force or gravitational pull. This force pulls the ball towards the center of the Earth, causing it to accelerate downward.
The main force causing a ball to fall after being thrown into the air is gravity. Although air resistance, a form of frictional force, does play a role in slowing down the ball's motion, it is not the primary reason the ball falls back to the ground. Gravity pulls the ball downward, causing it to accelerate towards the Earth.
The force of friction is not acting upon a ball that is thrown in the air. Friction is a force that opposes motion, but when a ball is thrown in the air, there is no surface contact for friction to act upon.
The force of gravity acts on the ball as soon as it is released, causing it to accelerate downwards. This acceleration provides the ball with a curved trajectory as it moves through the air. The force of gravity also determines how quickly the ball will return to the ground after being thrown.
The force exerted by Earth on a ball thrown into the air is the force of gravity. Gravity is a fundamental force that pulls objects towards the center of the Earth. As the ball goes up, gravity acts to bring it back down towards the Earth's surface.
They all have the same gravitational potential energies.
Yes, when a ball is thrown into the air, the force of gravity acting on the ball causes it to accelerate downward. Since there is no force opposing gravity, the ball moves in a parabolic trajectory until it eventually comes back down due to the unbalanced force acting on it.
We are actually finding this gravitational force during the every moment in the life time. If we had no gravitational force, we must have been flying in the air. The 2 examples are:-When we throw a ball in the air air, it returns to the ground.When we shoot a ball in the net, falls down again.
Yes, air resistance affects a ball being thrown by creating a force that opposes its motion through the air. This force acts to slow down the ball and alter its trajectory, especially at higher speeds or in the presence of turbulent air flow.
When a ball is thrown into the air, it encounters drag. Drag is the opposing force acting in the opposite direction of the ball. Drag slows down the ball's speed.
Air resistance is the force that opposes the motion of an object moving through the air, such as a skydiver falling through the sky or a ball thrown through the air. Gravitational force is the force of attraction between two objects with mass, like the force that keeps planets in orbit around the sun or objects from floating in space.