It takes about a couple of hours
Wiki User
∙ 12y agoAt a bowling ball factory.
To make a bowling ball float or sink, it's necessary to manipulate its density. To make it float, decrease its density by drilling holes or using materials like foam. To make it sink, increase its density by adding weight to the ball or filling it with denser materials like lead.
nope it depends on your form and how you release the ball.
You can make the bowling ball and soccer ball have the same gravitational potential energy by lifting them to the same height above the ground. Gravitational potential energy depends on the mass of the object and the height it is lifted, so as long as both balls are lifted to the same height, they will have the same gravitational potential energy.
Yes, but you have to completely flatten your wrist to make it or it will hook
3. two fingers, one thumb *unless ball has a balance, or weight hole to make the ball USBC legal.
my prediction about the bowling ball falling first was true.
so that the bowling ball can just glide and not stop while its going to make a strike or whatever.
Depending on the specific ball and materials, it could take 2-5 hours.
The force of the bowling ball colliding with the golf ball causes the golf ball to be redirected in an elastic collision. How fast either travels depends on the friction of the surface and the angle of contact with the bowling ball.Comparative Masses and EnergyIn the collision between a golf ball and a bowling ball, the fact that the bowling ball continues to move (although possibly changed in direction) is a function of the comparative masses of the two. The bowling ball is much more massive, so at normal velocities its kinetic energy exceeds the kinetic energy of the golf ball. In order to "stop" the bowling ball, the golf ball would have to make a perfectly aimed collision, and have a much higher velocity. Quantitatively, the velocity of the golf ball would have to be the inverse ratio of the ratio of the masses of the two balls, so that the kinetic energy (mass times velocity) is equal and in the opposite direction.Example : Golf ball at 45 g, ten pound bowling ball at 4500 g -- the golf ball would have to move at 100 times the velocity of the bowling ball to counteract its kinetic energy. If the bowling ball rolls at 2 m/sec, the golf ball would have to travel at more than 200 m/sec (720 kph or 447 mph), about 3 times a ball's normal velocity off the face of a golf club.
If one were to sculpt a solid weight bowling ball from the suggested paper mache, it is likely to take at least 5 cups of water for a 5-pin bowling ball and at least 16 cups of flour for a 10-pin bowling ball. Consider in order to solidify the mache mixture, that each of these measurements will need to mix at least twice as much water, over the flour.
A bowling ball typically has greater density than a soccer ball. This is because the materials used to make a bowling ball, like resin or urethane, are denser than the materials used in a soccer ball, like leather or synthetic materials.