Linear momentum, p=mv, is proportional to mass and velocity. Since the bowling ball far outweighs the volleyball, the difference in velocity would have to be determined in order for them to possess the same amount of momentum. If the volleyball is traveling at a high enough speed (orders of magnitude higher), they can both have the same momentum. Either that or fill the volleyball with concrete.
with out momentum the volleyball wouldn't travel, eg: when you throw the ball it carrys momentum through the air, but as soon as force isn't applyed to keep the ball traveling at the same speed, it will loose speed (momentum) and drop to the ground.
Newton's law of motion states something along the lines of the action-reaction force. When the volleyball (in motion) comes down, it bounces off the specific area of your hands/arms/wrists used to "bump" the volleyball. This causes the volleyball to fly into the air, while also causing the reaction force of your hands being pushed downward as you feel the force of the volleyball hitting your skin.
The momentum of the your body (if you execute the approach correctly) is what help provides the velocity to the ball as it goes over the net. Your hand hitting the volleyball also helps the velocity.
Use this formula:Final momentum = (initial momentum) + (change in momentum)
Paul B. Salitsky has written: 'Effects of time-outs on psychological momentum in intercollegiate women's volleyball' -- subject(s): Competition (Psychology), Interruption (Psychology), Psychological aspects, Psychological aspects of Volleyball for women, Volleyball for women
To gain momentum. It can compare to when you push up with your legs on a pass or a bump.
what year is volleyball made what do they use what is they history
The ball gathered momentum as it rolled.
Momentum= Mass X Velocity
you use your hands in volleyball and in soccer you use ur feet and u play on a cort in volleyball and in soccer u play on a feild
Material used in volleyball is sponge type.