yes becuase impulse is calculated by force times difference in time if you exerted a force on the ball at any point (you need to to throw it) then you exerted impulse on it
Yes, when you throw a ball, you exert an impulse on it. Impulse is the product of the force applied to an object and the time over which the force is applied. This imparted impulse causes the ball to accelerate and be launched into motion.
Yes, when you throw a ball, you do experience an impulse. This is because you use force to exchange kinetic energy with the ball.
Yes - assuming air resistance is negligible, so that no energy is lost on the ball's trip.
friction
Yes, work is done when you throw a ball. When you exert force on the ball to throw it, you are transferring energy to the ball, thus doing work on it. This work results in the ball gaining kinetic energy as it moves.
Yes, when you throw a ball, your hand exerts a force on the ball to propel it forward. The ball also exerts an equal and opposite force on your hand, according to Newton's third law of motion. This exchange of forces allows the ball to be thrown.
When you throw a ball, you exert a force on it by pushing or propelling it in a direction. This force causes the ball to accelerate and move through the air. In this case, your arm muscles are applying a force to the ball to make it move.
gravity
To use a velocity ball, hold it in your hand and throw it with as much force as possible. The ball is designed to measure the speed of your throw. Make sure to take into account your technique and form when using the velocity ball to get an accurate reading of your throwing speed.
Yes, when you throw a ball, you do experience an impulse. This is because you use force to exchange kinetic energy with the ball.
Yes, when you throw a ball, your hand exerts a force on the ball to propel it forward. The ball also exerts an equal and opposite force on your hand, according to Newton's third law of motion. This exchange of forces allows the ball to be thrown.
F = ma, so assuming no losses F = 0.15 x 20 = 3 N.
All of the fundamental types of force can be mathematically described in the form of force fields. But force involves many things. If I throw a ball, I exert force on that ball which is then accelerated as a result. The force field involved is far from obvious, although it does exist. If you understand the physics deeply, you would see that in order for me to exert a force on a ball, the electrons in the atoms in my hand have to exert a force of repulsion on the electrons in the atoms of the ball. And that electromagnetic force can be described as a force field.
It is equivalent to the change in momentum of the ball.
only if your a fat
zero
nothing they mean the same thing
It is equivalent to the change in momentum of the ball.
it is a scratch throw when you throw the ball it will go straght
it is a scratch throw when you throw the ball it will go straght
-50 N