A Rubber Band Has A Spring Constant Of 45 N M

A rubber band has a spring constant of 45 n m. Mikmik1119 is waiting for your help. And how what is its potential energy.

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A rubber band has a spring constant of 45 n m.

A rubber band has a spring constant of 45 n m.

A slingshot consists of a light leather cup attached between two rubber bands. In this case the linear function fitting the straight part of the data gives a spring constant of 17 38 n m. X is the stretching of the spring with respect to its equilibrium position. A rubber band has a spring constant of 45 n m.

If it takes a force of 32 n to stretch the bands 1 2 cm what is the equivalent spring constant of the two rubber bands. After you get the rubber band stretched just a little bit it is very spring like. If you stretch the rubber band 0 02 m past its neutral length w get the answers you need now. X extension of spring in meters f force in newton f x spring constant.

Add your answer and earn points. When the rubber band is pulled by a force of 9 8 n how far will it stretch and what is its potential energy. F mg 250 kg 9 8 m s 2 2 450 n. What is the spring constant.

When the rubber band is pulled by a force of 9 8 n how far will it stretch. The weight of the airplane hanging from the rubber band is given by the product between its mass 0 5 kg and the acceleration due to gravity g 9 8 m s 2. The rotational spring constant for this thicker band is not surprisingly higher than the normal sized rubber band with a value of 4 92 x 10 4 n m. K 45 n m is the spring constant.

If i assume that i could also rotate this one. Hooke s law and elastic potential. A rubber band has a spring constant of 45 n m. What does this mean the spring constant.

When the rubber band is pulled by a force of 9 8 n how far will it stretch and what is its potential energy. How much force is required to pull a spring 3 0 cm from its equilibrium. When the rubber band is pulled by a force of 9 8 n how far will it stretch and what is its potential energy. A load of 45 n atached to a spring that is hanging vertically streches the spring 0 14 m.

Where f equals force m equals the mass of the object and g equals the acceleration due to gravity 9 8 meters per second 2. This is the force that stretches the rubber band according to hook s law. 2963344 solve problem. The spring in the shock absorber will at a minimum have to give you 2 450 newtons of force at the maximum compression of 0 5 meters.

A rubber band has spring constant of 36 n m.