Well, that depends on how fast the Golf-ball is going, if it's going 30 mph, yes is can, If faster no.
yes
this question has the theoritical answer but it is not yet practically done. according to the theortical answer """"""""yes! elephant have the same momentum as a Golf ball<<<<<<<<< Actually, elephants can have the same momentum as a golf ball. the equation for momentum is m x v2. m is mass, v is speed, and the two represents "speed squared". If the golf ball has a huge speed, then yes, it can have the same momentum as the elephant.
Momentum, in classical terms, is defined as mass x velocity. So, theoretically, an elephant could have the same momentum as a golf ball if the golf ball (small mass) is moving very, very fast, and the elephant (large mass) is moving very, very slowly. If the product of the mass x velocity is the same, then the momentum can be the same.
this question has the theoritical answer but it is not yet practically done. according to the theortical answer """"""""yes! elephant have the same momentum as a golf ball<<<<<<<<< Actually, elephants can have the same momentum as a golf ball. the equation for momentum is m x v2. m is mass, v is speed, and the two represents "speed squared". If the golf ball has a huge speed, then yes, it can have the same momentum as the elephant.
Momentum is the product of the mass and velocity of an object. Since a golf ball has a much lower mass than an elephant, it would have to have a much higher velocity to achieve the same momentum as an elephant. But it is definitely possible.
Hit it harder with a club.
momentum=velocity x mass say a golf ball weighs 1 pound and the bowling ball weighs 5 pounds the golf ball would have to be moving 5 times faster than the bowling ball to have the same momentum
The golf ball, initially at rest, has no initial momentum. The velocity the moment before the club strikes the ball and the clubs mass multiply to get the initial momentum. The ball then gains much momentum in the direction of the clubs initial momentum. Since there golfers arm is remaining attached to the shoulder the clubs acceleration is directed towards his shoulder and the momentum is directed in a circular direction.
The Golf ball, initially at rest, has no initial momentum. The velocity the moment before the club strikes the ball and the clubs mass multiply to get the initial momentum. The ball then gains much momentum in the direction of the clubs initial momentum. Since there golfers arm is remaining attached to the shoulder the clubs acceleration is directed towards his shoulder and the momentum is directed in a circular direction.
Its momentum is due to the amount of energy transfered from club to ball. There are a few factors in this transfer, the speed of the club head, the compression of the club face and most importantly the compression of the golf ball.
A bowling ball has more momentum. You cannot throw it as fast, but a tenpin ball weighs 16 pounds and a baseball only 1/3 pound. Momentum is mass times velocity and if you throw the bowling ball at 10 mph but the baseball at 90 mph the bowling ball still has much more momentum.
depends on how hard you hit in but in most cases....yes