Table of Contents
Does the weight of a ball affect its bouncing?
Both balls will fall at a similar speed, but because kinetic energy is proportional to the mass of the object, the heavy ball reaches Earth with more energy. It will not necessarily rebound higher, as it also needs more kinetic energy to reach a specific height again.
Is there a weight limit for basketball?
The NCAA. NCAA men’s basketballs have a maximum circumference of 30 inches, and the seams must be no wider than 1/4 inch, with a weight of approximately 22 ounces. NCAA women’s basketballs are a maximum of 29 inches in circumference, with a maximum weight of 20 ounces and seams no wider than 1/4 inch.
Why do heavier balls bounce higher?
The air friction is approximately proportional to the square of the radius at high speeds, and to the radius at low speeds. So for bigger balls the ratio of gravitational to frictional force goes up, compared to small balls. That would tend to make the large balls bounce higher.
Does the size of a ball affect how high it bounces?
The size of the ball can affect its bounce due to air resistance, surface volume and density. However, mass can also play a part in how a ball bounces. If two balls contain the same mass, but are of different sizes, the larger ball will bounce less due to greater air friction against its surface.
What determines how high something bounces?
Explanation: When all three balls are dropped from the same height, the rubber ball will bounce the highest because it has the greatest elasticity. When the rubber ball hits the ground it gets compressed, or squished, and because it is very elastic, it quickly returns to its original shape.
How did the GPE change with height?
Since the gravitational potential energy of an object is directly proportional to its height above the zero position, a doubling of the height will result in a doubling of the gravitational potential energy. A tripling of the height will result in a tripling of the gravitational potential energy.
Does height affect efficiency?
The efficiency of a ball can be calculated by dropping and measuring the height of the bounce. The higher the bounce, the more efficient the ball is. Balls which do not bounce high are less efficient as they have lost energy.
How tall does a basketball bounce when you drop it?
How high a basketball will bounce on how hard you throw it at the ground. If you drop a basketball without throwing it at the ground, it will bounce back up to a fraction of its original height that is not too far from 1.0 (0.75 is kind of typical for a well-inflated new basketball).
How does air resistance affect a basketball shot?
Air resistance is negligible. The longer the ball is in the air, the greater the net force exerted on it by drag. However, the ball is not in the air for long, has a small surface area relative to its mass, and does not have a significant velocity. Air resistance will be negigible when comparing differing shot options.
What happens when you throw a basketball at the ground?
It will continue to bounce, losing about a quarter of its height on each bounce. If you threw the ball at the ground so that it hits the ground as fast as it would had it been dropped from 20 feet, it will bounce back to about 15 feet.
How does the Magnus effect affect a basketball?
Here are the assumptions I will be working with: 1. The Magnus effect is negligible. The Magnus effect, put basically, works off the reality that air is a viscous, albeit minisculy so, fluid. As a ball spins, the air on one side is affected by the friction from the spinning surface of the ball, giving a reaction force on the ball.