The answer will depend on the unstretched length of the spring and its Young's modulus.
depends on the initial length of the spring, and how much force is required to stretch the spring
The ratio of force applied to how much the spring streches (or compresses). In the SI, the spring constant would be expressed in Newtons/meter. A larger spring constant means the spring is "stiffer" - more force is required to stretch it a certain amount.
Stretch has one syllable.
There is 15 centimeters in 15 centimeters
To predict how many centimeters the spring will stretch, we need to know the spring constant in N/cm and apply Hooke's Law. Hooke's Law states that the force exerted by a spring is directly proportional to its extension. By knowing the spring constant and the total mass attached, we can calculate the stretch.
Measure how many newtons of pull you need in order to stretch the springtwo centimeters longer. Then the spring constant is1/2 of (that number of newtons) per centimeter, or50 x (that number of newtons) per meter.======================================US, Liberian, and Burmese version:Measure how many ounces of pull you need in order to stretch the springone inch longer.Then the spring constant is (that number of ounces) per inch .
When you stretch a spring, two main forces are acting on it: the restoring force exerted by the spring itself, trying to return to its original shape, and the external force applied to stretch the spring. These forces create tension within the spring until a new equilibrium is reached.
The answer will depend on the unstretched length of the spring and its Young's modulus.
When you stretch a spring, the energy stored is potential energy from the work done to stretch the spring. This potential energy is then converted into kinetic energy when the spring is released and returns to its original position.
When you stretch a spring, it stores potential energy in the form of elastic potential energy. The spring will exert a restoring force trying to return to its original shape. The amount of force required to stretch the spring is directly proportional to the amount of deformation.
The extension of a spring depends on its stiffness, which is given by its spring constant. If the spring constant is known, you can use Hooke's Law (F = kx) to calculate the stretch of the spring. For example, if the spring constant is 100 N/m, a 1 kg weight would stretch the spring by 0.1 meters (10 cm).
If the spring is cut in half, its stiffness will increase and it will stretch less for the same load. The new stretch will depend on the new stiffness of the spring. Without knowing the exact stiffness of the original spring and the new one, it is difficult to determine the exact stretch without calculations.
When you pull on the scale you stretch the spring the pointer on the scales moves as you pull to measure the force you are using you have to be able to lift or pull on the spring scale
The force that causes a spring to stretch is called tensile force. This force is exerted when an external force is applied to the ends of the spring, causing it to elongate.
Yes, a spring will stretch when a weight is added to it due to the force of gravity acting on the weight, causing the spring to deform. The amount of stretch will depend on the weight added and the stiffness of the spring.
When you stretch a spring, the energy is stored as potential energy in the form of elastic potential energy. This potential energy is stored in the spring due to the deformation of its shape, and it is released when the spring returns to its original position.