The experimental setup I envision is as follows: you get a sheet of melamine, stick it in the middle of the school gym, set one end on a sawhorse to create the slope, put the two balls at the top of the slope, let go of them at the same time and measure to see which one goes farther once it gets out onto the gym floor. Right? Because of the weights of the two balls, the Bowling ball will travel farther. It can store more energy from gravity.
Probably the bowling bowl. Momentum is mass x velocity and a bowling ball is generally heavier than a Golf ball.
The tennis ball, because the coefficient of static friction is higher on the bowling ball, due to the higher mass.
Force = mass X acceleration
The bowling ball.
The one with the greatest mass has the greatest inertia. So, it will be the bowling ball.
Any amount of force can stop either kind of ball. But a greater force is required to stop a bowling ball than to stop a soccer ball IN THE SAME TIME, because the bowling ball has more mass, and therefore more momentum and more kinetic energy.
The force of gravity is stronger between larger masses, and weaker between smaller masses. That's why there's more force between you and the Earth than there is between you and a bowling ball, for example.
Tennis balls are lighter than cricket balls. Therefore less mass. If a tennis ball travels at the same speed its momentum (mass x velocity) is lower. Therefore less momentum an easier to stop. Short answer, less mass and same speed means less momentum
When the solid has a lower density than the liquid, it will float in it. The density is the mass divided by the volume. A bowling ball, while heavy, has a lower density than water, so it will float in water. A pebble, while light, has a higher density than water, so it will sink. In general, the buoyant force is equal to the weight of the displaced fluid (Archimedes Law). This means that the upward force on a bowling ball in water is equal to the weight of the same volume of water. Since a bowling-ball sized amount of water weighs more than a bowling ball, the upward force is greater than the weight of the bowling ball, and the submerged bowling ball will have a net force in the upward direction.
the table tennis ball
The one with the greatest mass has the greatest inertia. So, it will be the bowling ball.
sand grain
Any amount of force can stop either kind of ball. But a greater force is required to stop a bowling ball than to stop a soccer ball IN THE SAME TIME, because the bowling ball has more mass, and therefore more momentum and more kinetic energy.
Because of the amount of force, spin, and angle you place on the ball with your raquet.
since force is mass and acceleration the force needed to knock over a bowling depends on the mass of bowling and it acceleration.
Accordig to one of Newton's laws, the force is equal because objects exert equal and opposite force on one another. This is why if you punch a brick wall, your hand will probably hurt. You are hitting the brick wall and it is "hitting" you back with the same amount of force.
it knocks the pins down.
The acceleration a of a body is parallel and directly proportional to the net force F acting on the body, is in the direction of the net force, and is inversely proportional to the mass m of the body, i.e., F = ma.
Since F= ma the much lighter tennis ball would receive much more acceleration and ,consequently, roll much farther, how far depend on the rolling surface. If they received the same initial velocity, they theoretically would roll the same distance bu it would again depend on the surface.
The limiting frictional force is the force that slows down the tennis ball on the roller coaster.
The object with the most mass, as gravitational force is dependent on mass. Therefore the bowling ball exerts more gravitational force than a baseball or a football.