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What was the magnitude of the impulse delivered by the wall?
The magnitude of the impulse delivered by the wall is the force applied multiplied by the time it was applied for.
Assume that a 20 kg ball moving at 7 meter per second strikes a wall perpendicularly and rebounds elastically at the same speed What is the amount of impulse given to the wall?
The impulse delivered to the wall can be calculated using the formula: impulse = change in momentum. Since the ball rebounds elastically at the same speed, the change in momentum is twice the initial momentum (2 * mass * velocity). Thus, the impulse delivered to the wall is 280 Ns.
What is the impulse experienced by a ball bouncing off a wall?
The impulse experienced by a ball bouncing off a wall is the change in momentum that occurs when the ball hits the wall and then bounces back in the opposite direction. This change in momentum is caused by the force exerted on the ball by the wall during the collision.
What is true about the magnitude of the force experienced by the ball compared with the force experienced by the wall?
The magnitude of the force experienced by the ball is equal to the magnitude of the force experienced by the wall according to Newton's third law of motion, which states that for every action, there is an equal and opposite reaction.
What is the difference between an elastic collision and an inelastic collision?
No loss in energy due to collision is for elastic collision. But there will be a loss during collision in case of in-elastic collision. So KE will remain constant before and after collision in case of elastic collision.
What was the magnitude of the impulse delivered by the wall?
The magnitude of the impulse delivered by the wall is the force applied multiplied by the time it was applied for.
Assume that a 20 kg ball moving at 7 meter per second strikes a wall perpendicularly and rebounds elastically at the same speed What is the amount of impulse given to the wall?
The impulse delivered to the wall can be calculated using the formula: impulse = change in momentum. Since the ball rebounds elastically at the same speed, the change in momentum is twice the initial momentum (2 * mass * velocity). Thus, the impulse delivered to the wall is 280 Ns.
What is the impulse experienced by a ball bouncing off a wall?
The impulse experienced by a ball bouncing off a wall is the change in momentum that occurs when the ball hits the wall and then bounces back in the opposite direction. This change in momentum is caused by the force exerted on the ball by the wall during the collision.
What is true about the magnitude of the force experienced by the ball compared with the force experienced by the wall?
The magnitude of the force experienced by the ball is equal to the magnitude of the force experienced by the wall according to Newton's third law of motion, which states that for every action, there is an equal and opposite reaction.
How is oxygen delivered to the muscular wall of the heart?
Through the coronary arteries.
How large is the impulse item market?
how large is the implusesitem market card t shirt wall plaqueect.
When you throw mud to the wall it sticks to the wall According to newtons 3rd law the wall should throw it back then why it sticks to the wall?
There is no problem in this case from Newton's third law because the collision is not happening instantly. During the collision the mud is flattened and slowed by a reactive force from the wall (according to the third law) and the kinetic energy that is lost is converted to heat in the wall and the mud and also the deformation of the mud. After the collision no speed remains and the mud sticks to the wall. The problem is that you forgot to consider the time of the collision and that the mud itself is not a rigid object; it can absorb energy.
What normal variation may affect the location of the apical impulse?
Variations in body habitus, such as obesity or muscularity, can affect the location of the apical impulse. Additionally, differences in the position of the heart within the chest cavity can lead to variations in the precise location of the apical impulse.
What is the difference between an elastic collision and an inelastic collision?
No loss in energy due to collision is for elastic collision. But there will be a loss during collision in case of in-elastic collision. So KE will remain constant before and after collision in case of elastic collision.
What is a collision bulkhead?
It is a safety barrier or wall between two compartments or rooms. In the event of an impact it can reduce damage to the second compartment.
How to calculate the normal force acting on an object held against a wall given mass and force?
The normal force is equal in magnitude but opposite in direction to the force applied against the wall. If the object is held against the wall with a force, then the normal force acting on the object will be equal in magnitude to that force. If the mass of the object is given, you can calculate the force needed to hold it against the wall using Newton's second law (F = ma).
The action and reaction forces in any situation will always be?
Forces that are equal in magnitude but opposite in direction. For example, if you push against a brick wall and it doesn't move or become deformed, then the brick wall is exerting an equal force against you.
