Wiki User
∙ 6y agoOn a very small scale, it is true.
Wiki User
∙ 6y agoYes, that's correct. When a force is applied to an object, it can cause the object to deform temporarily. Once the force is removed, the object will return to its original shape if the deformation is within the elastic limit of the material. This behavior is described by Hooke's Law in the context of elasticity.
A spring is a common component in force meters that returns to its original shape after being stretched. When a force is applied to the spring, it deforms but returns to its original position once the force is removed. This property makes springs ideal for measuring forces due to their consistent elasticity.
One way to test if a steel ball is elastic would be to drop it from a certain height onto a hard surface and measure how high it bounces back. If the ball retains most of its original height, it is likely elastic. Additionally, you could apply a known force to the ball and measure how much it deforms, then release the force to see if the ball returns to its original shape.
Motion of an object can be produced by applying a force to it. According to Newton's laws of motion, an object will remain at rest or in uniform motion unless acted upon by an external force. By applying a force in the direction you want the object to move, you can produce its motion.
When you push against an object, the force you apply is called the applied force. This force is the external force exerted on the object by you pushing against it.
Apply a force that causes the object to oscillate. Use a motor or vibrating device to generate vibrations in the object. Strike or hit the object to induce vibrations. Apply sound waves to the object at its resonant frequency to make it vibrate.
A spring is a common component in force meters that returns to its original shape after being stretched. When a force is applied to the spring, it deforms but returns to its original position once the force is removed. This property makes springs ideal for measuring forces due to their consistent elasticity.
One way to test if a steel ball is elastic would be to drop it from a certain height onto a hard surface and measure how high it bounces back. If the ball retains most of its original height, it is likely elastic. Additionally, you could apply a known force to the ball and measure how much it deforms, then release the force to see if the ball returns to its original shape.
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Motion of an object can be produced by applying a force to it. According to Newton's laws of motion, an object will remain at rest or in uniform motion unless acted upon by an external force. By applying a force in the direction you want the object to move, you can produce its motion.
Apply some force to the object.
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A Texture can be dragged from the inventory directly onto the face of an object this is done by left clicking on the texture. This procedure will only apply the texture to one face of the object. To apply a texture to the entire object it is necessary to open the properties of the object and drag the texture directly into it. This will apply the texture to every face.
When you push against an object, the force you apply is called the applied force. This force is the external force exerted on the object by you pushing against it.
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unknown answer
Basically, Newton's Third Law ALWAYS applies.To accelerate an object, you need to apply some force to it. There MUST be a counterforce, from the object back to the object that pulls or pushes it.