It was found in 1660 by the English scientist Robert Hooke and asserts that, for relatively modest deformations of an item, the displacement or magnitude of the deformation is precisely proportional to the deforming force or load that caused the deformation.

Contents

- 1 What is Hooke’s law and what is meant by elastic limit?
- 2 What is Hooke’s law class 11 physics?
- 3 What is Hooke’s Law and modulus of elasticity Class 11?
- 4 What is Hooke’s Law explain with diagram?
- 5 What is Hooke’s Law experiment?
- 6 What is Hooke’s Law Class 7?
- 7 What is Hooke’s Law Mcq?
- 8 What chapter is Hooke’s Law in?
- 9 What is the use of Hooke’s Law?
- 10 What is Hooke’s Law PPT?

## What is Hooke’s law and what is meant by elastic limit?

Hooke’s law, also known as the law of elasticity, was established by the English scientist Robert Hooke in 1660 and asserts that, for relatively modest deformations of an item, the displacement or amount of the deformation is precisely proportional to the deforming force or load applied.

## What is Hooke’s law class 11 physics?

When applied within the elastic limit, Hooke’s law asserts that the amount of stress created is directly proportional to the amount of strain produced in a body. According to Hooke’s law, as the amount of strain rises, the amount of stress increases as well. The Hooke’s law is applicable to all elastic material, including rubber and plastic.

## What is Hooke’s Law and modulus of elasticity Class 11?

Hooke’s law asserts that, within the elastic limit, the amount of stress supplied is proportional to the amount of strain created stress. The strainent is the maximum length that a solid may be stretched without undergoing irreversible deformation. The elastic limit is a point or the greatest size and form that can be achieved.

## What is Hooke’s Law explain with diagram?

It asserts that the extension of a spring is directly proportional to the amount of force applied to the spring. For example, the spring is dragged downwards with either no load, Fp, or double the amount of force applied to it. The following is a diagram of Hooke’s Law: The spring’s extension is directly proportional to the force acting on the spring.

## What is Hooke’s Law experiment?

The experiment’s main goal is to When the elastic limit of a spring is not exceeded, Hooke’s law asserts that the extension of the spring is directly proportional to the force applied. The experiment’s goal is to explore the link between a force and the extension of a spring, as well as to determine whether or not the spring obeys Hooke’s law.

## What is Hooke’s Law Class 7?

Hooke’s law asserts that, within the elastic limit of a material, the strain experienced by the material is proportionate to the amount of applied stress. After being stretched, the atoms and molecules distort until the tension is released, and then they revert to their original states.

## What is Hooke’s Law Mcq?

In accordance with Hooke’s law, “Within the elastic limit, stress is exactly proportional to strain” (within the elastic limit). The stress in an elastic material is defined as the restoring force exerted on an item per unit area of the material.

## What chapter is Hooke’s Law in?

Robert Hooke, an English scientist who lived from 1635 to 1703 A.D., conducted research on springs and discovered that the elongation (change in length) generated in a body is proportionate to the force or load given to it. Hooke published his law of elasticity in 1676, which is today known as Hooke’s law. Section 9.4 will have an in-depth discussion of this topic.

## What is the use of Hooke’s Law?

Robert Hooke, an English scientist who lived from 1635 to 1703 A.D., conducted research on springs and discovered that the elongation (change in length) generated in a body is proportionate to the force or load given to the body. Hooke’s law, which he stated in 1676, is today known as Hooke’s law of elastic elasticity. Section 9.4 will be devoted to the subject.

## What is Hooke’s Law PPT?

Definitions that are essential • Hooke’s Law: The amount of force given to a spring causes it to stretch in proportion to the amount of force applied to it. It is measured by the spring constant, which indicates how stiff a spring is. The stiffer the spring is, the greater the value of the spring constant.