Want this question answered?
The forces acting on a flying ball are:1. The frictional force exerted by air on the motion of the ball.2. The gravitational force of the earth, of course.
the force exerted by a 3 kg ball on earth is weight force, whose direction is downward, and magnitude is 29.4 newton.
No they do balance each other its the newtons law that every action have reaction.If we throw a ball towards a wall the force which we exerted on the ball is equal to the force which wall exerted on the ball.
do your homework on your ownschool is for getting your learn on
The two forces that act on the ball after it leaves your hand are gravity and air resistance.
The force exerted on the table by a ball IS the weight of the ball.
The forces acting on a flying ball are:1. The frictional force exerted by air on the motion of the ball.2. The gravitational force of the earth, of course.
It explodes in 39.2 seconds after being heated at 375 degree Fahrenheit in an oven. VERY messy.
the force exerted by a 3 kg ball on earth is weight force, whose direction is downward, and magnitude is 29.4 newton.
the action force is your foot when u strike the ball the reaction force is the ball being kicked
the action force is your foot when u strike the ball the reaction force is the ball being kicked
do your homework on your ownschool is for getting your learn on
No they do balance each other its the newtons law that every action have reaction.If we throw a ball towards a wall the force which we exerted on the ball is equal to the force which wall exerted on the ball.
When the force of gravity equals upthrust, the object is stationery and the forces are said to be equal. Eg. A scuba diver holding position underwater. A soccer ball will remain stationery when the force of gravity is equal to the upward force on the ball.
Palming a volleyball is holding the ball in one of your hands with the hand holding the ball from the top of the ball.
Rest position or equilibrium position occurs when all the forces (gravity, the wind, friction etc) exerted on an object are equal.For example, a rolling ball is not in equilibrium because one or more forces (gravity or the force you used to initially move the ball) are greater in strength than the friction (both between the ball and the surface it is rolling on and between the ball and the air).The ball will stop rolling when the force causing it to move 'forwards' is overcome by frictional force. The ball will then be in equilibrium, or at rest.
the mass of the ball and club and the velocity of the club