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When two forces act on a rubber ball, they can change its shape and size. The forces can compress or stretch the ball, affecting its elasticity and rebound characteristics. Additionally, the forces can also cause the ball to accelerate or decelerate depending on their direction and magnitude.
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What causes a change in motion a balanced or unbalanced force?
Forces on a moving object are balanced only when the object is moving at a constant velocity. Remember, acceleration is a force and a constant velocity is equivalent to zero acceleration. Think of a ping pong ball that you drop from a few meters above the ground: After a short acceleration the ball reaches "terminal velocity" when the air resistance balances the gravitational acceleration. After this, the forces on the ball are balanced (although it is moving, the velocity - speed & direction - of the ball is not changing)
Which forces always cause a change in motion?
The forces that always cause a change in motion are unbalanced forces. When there is an imbalance of forces acting on an object, it will accelerate or decelerate, causing a change in its motion. Balanced forces, on the other hand, do not cause a change in motion as they cancel each other out.
Which has more inertia-a cricket ball or a rubber ball?
The cricket ball has more inertia than the rubber ball because inertia is directly proportional to mass. The cricket ball is denser and heavier than the rubber ball, making it harder to change its state of motion.
How did the rubber ball move?
The rubber ball moved due to an external force applied to it, such as being thrown, kicked, or rolled. The force caused the ball to accelerate and change its position or direction.
What are examples of a force?
When a ball moving hits a ball that is at rest and a human pulling out a book from a desk.
What causes a change in motion a balanced or unbalanced force?
Forces on a moving object are balanced only when the object is moving at a constant velocity. Remember, acceleration is a force and a constant velocity is equivalent to zero acceleration. Think of a ping pong ball that you drop from a few meters above the ground: After a short acceleration the ball reaches "terminal velocity" when the air resistance balances the gravitational acceleration. After this, the forces on the ball are balanced (although it is moving, the velocity - speed & direction - of the ball is not changing)
Which forces always cause a change in motion?
The forces that always cause a change in motion are unbalanced forces. When there is an imbalance of forces acting on an object, it will accelerate or decelerate, causing a change in its motion. Balanced forces, on the other hand, do not cause a change in motion as they cancel each other out.
If being hit by a rubber ball in the breast will it cause cancer?
no
Which has more inertia-a cricket ball or a rubber ball?
The cricket ball has more inertia than the rubber ball because inertia is directly proportional to mass. The cricket ball is denser and heavier than the rubber ball, making it harder to change its state of motion.
How did the rubber ball move?
The rubber ball moved due to an external force applied to it, such as being thrown, kicked, or rolled. The force caused the ball to accelerate and change its position or direction.
If you put place a rubber ball into a box why didn't the ball change its shape explain?
because the ball is a solid object.
Will a ball of glass Bounce higer then a ball of Rubber?
it is scientifically proven that a ball of glass bounces higher than a ball of rubber. No cause the glass would break if you drop it to high and the rubber one would not ! It depends on wether or not your counting the height the shards fly up.
What are examples of a force?
When a ball moving hits a ball that is at rest and a human pulling out a book from a desk.
Will a rubber bouncy ball explode if put in microwave?
Yes, a rubber bouncy ball can explode if put in a microwave. The microwave's heat can cause the air inside the ball to expand rapidly, leading to an explosion. It is not safe to microwave rubber bouncy balls.
What are some examples of direct forces?
Examples of direct forces include pushing a car to move it, pulling a door to open it, or kicking a ball to make it move. These forces directly act on an object to cause a change in its motion or state.
Why do rubber balls bounce high?
Rubber balls bounce high because rubber is an elastic material that can store and release a lot of energy upon impact. When a rubber ball hits a surface, it deforms and compresses, storing potential energy. As it rebounds, the stored energy is released, propelling the ball back up with force, resulting in a high bounce.
Does the temperature effect a rubber ball?
Yes, temperature can affect a rubber ball. Rubber becomes more flexible and bouncy at higher temperatures but can become brittle at very low temperatures. Extreme temperature changes can also cause the rubber to degrade over time.
