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A Bowling ball. An official NBA Basketball weighs 22 ounces, which is less than two pounds. The bowling balls little kids play with weigh 6 to 8 pounds, and adults play with balls weighing from 12 to 16 pounds.
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Which has a greater force a bowling ball or an apple?
A bowling ball has a greater force than an apple due to its larger mass. Force is directly proportional to mass, so the heavier object will exert a greater force when both are accelerated the same way.
Which exerts more gravitational force a baseball a football or a bowling ball?
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.
What would be bettrr the gravitational force between two feathers or two bowling balls assuming the distance between them is equal?
The gravitational force between two bowling balls would be greater than the gravitational force between two feathers. This is because the force of gravity is directly proportional to the mass of the objects interacting. Since bowling balls have a much greater mass than feathers, they would exert a stronger gravitational force on each other.
Which would be greaterthe gravitational force between two feathers or two bowling balls assuming the distance between them is equal?
The gravitational force between two bowling balls would be greater than the gravitational force between two feathers, assuming the distance between them is the same. This is because the gravitational force is directly proportional to the mass of the objects involved, and bowling balls have much greater mass than feathers.
Does rolling soccer ball needs more force to stop than a rolling 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 inertia of a bowling ball is what the inertia of a basketball?
No, the inertia of a bowling ball is greater than the inertia of a basketball due to the bowling ball's larger mass. Inertia is the resistance of an object to changes in its state of motion, and a heavier object like the bowling ball requires more force to accelerate or decelerate compared to the basketball.
Does moving an object a greater distance always require a greater amount of work?
Moving an object a greater distance does not necessarily require a greater amount of work. Work is calculated based on the force applied and the distance moved in the direction of the force. So, if the force decreases as the object moves a greater distance, the work done may not necessarily increase.
Does a bowling ball have more force than a feather?
Well according to the equation Force = Mass x Acceleration. A bowling ball has more mass than a feather but it all depends on how much acceleration each is undergoing. Potentially a feather can have more force (if the bowling ball has an acceleration of zero, then there is no force being produced, and if the feather is accelerating at any speed greater than zero, thentechnicallyit has more force)
A 10 kg bowling ball would require what force to accelerate it down an alley at a rate of 3 meters per second per second?
Ignoring friction and air resistance, it would require a force of 30 Newtons.
What is greater static or dynamic force?
Dynamic force is greater than static force because dynamic force involves motion and acceleration, which typically require more energy and force. Static force, on the other hand, refers to a force exerted without any movement.
If a bowling ball is moving torwards the bowling pin which direction is the net force acting?
The net force would be in the direction of the bowling ball's motion, which in this case would be towards the bowling pin.
Would you expect to require the most force?
The object with the most mass will require the most force to move. This is because force is directly proportional to an object's mass: the greater the mass, the more force is needed to move it.
