A slinky stretches and compresses due to the balance between the force applied to it and the elasticity of the material it is made of. When the slinky is stretched or compressed, this creates potential energy stored in the coils. The motion of a slinky is governed by the transfer of energy from the tension in the coils as it oscillates back and forth in a wave-like motion.
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.
The force that causes a spring in a force meter to stretch is the tension or pull applied to the spring by an external force. The spring resists this force by elongating, allowing the force meter to measure the magnitude of the force being applied.
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.
When you stretch an elastic band, your muscles exert a pulling force on the band. The force is generated by the contraction of your muscles, which results in the stretching of the band.
It may loose its elastic nature.
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.
the force
This force is known as tension.
The force that causes a spring in a force meter to stretch is the tension or pull applied to the spring by an external force. The spring resists this force by elongating, allowing the force meter to measure the magnitude of the force being applied.
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.
Tension.
When you stretch an elastic band, your muscles exert a pulling force on the band. The force is generated by the contraction of your muscles, which results in the stretching of the band.
It may loose its elastic nature.
Newtonian force The amount of force is measured by its ability to stretch or compress a spring.
Yes, rubber can stretch due to its elasticity. When an external force is applied, the rubber material can deform to accommodate the force while retaining its original shape once the force is removed.
If a pulling force is exerted on an elastic band, it will stretch and store potential energy as the elastic band is deformed. The band will exert a restoring force back in the opposite direction to its original shape, trying to regain its unstretched position once the external force is removed.
As you stretch a spring, the force it exerts increases in direct proportion to the amount of stretch. This relationship is described by Hooke's Law. If the spring is stretched beyond its elastic limit, it may permanently deform and no longer obey Hooke's Law.