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Important Points: Work and Energy | Science Class 9 PDF Download

Introduction

  • The chapter focuses on the concepts of work, energy, and power, key elements in understanding natural phenomena.
  • Energy, crucial for survival and various activities, is derived from food and other sources.

Concept of Work

  • Work in science differs from its everyday usage; it requires both force and displacement.
  • Scientifically, work is done when a force acts on an object and causes displacement.
  • Examples: Pushing a pebble, pulling a trolley, lifting a book - all involve work as per scientific definition.
  • No work is done if either force or displacement is absent.

Work Done by a Constant Force

  • Work is the product of force and displacement (W = F × s).
  • Work has only magnitude, not direction, and is measured in joules (J).
  • Positive work: When force and displacement are in the same direction.
  • Negative work: When force acts opposite to the displacement.

Energy

  • Objects capable of doing work possess energy.
  • Energy can be transferred between objects and transformed from one form to another.
  • Types of energy: Mechanical, heat, chemical, electrical, and light energy.
  • The unit of energy is joule (J), similar to work.

Kinetic Energy

  • Energy due to motion is kinetic energy.
  • The kinetic energy formula: Important Points: Work and Energy | Science Class 9 where m is mass and v is velocity.
  • Kinetic energy increases with speed.

Potential Energy

  • Stored energy due to position or configuration is potential energy.
  • Examples: Stretched rubber band, wound toy car, raised objects.
  • Gravitational potential energy formula: Emgh where m is mass, g is gravity, and h is height.

Law of Conservation of Energy

  • Energy cannot be created or destroyed, only transformed.
  • The total energy before and after transformation remains constant.
  • Example: Free falling object converts potential energy to kinetic energy, but total energy remains the same.

Rate of Doing Work (Power)

  • Power is the rate of doing work, measured in watts (W).
  • 1 watt = 1 joule/second.
  • Power depends on how fast or slow work is done.

Key Learnings

  • The scientific definition of work involves force and displacement.
  • Energy is the capacity to do work; it can be kinetic or potential.
  • The law of conservation of energy underlines that energy transformations do not change the total energy.
  • Power quantifies the rate at which work is done or energy is transformed.
The document Important Points: Work and Energy | Science Class 9 is a part of the Class 9 Course Science Class 9.
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FAQs on Important Points: Work and Energy - Science Class 9

1. What is work and energy?
Ans. Work is defined as the transfer of energy that occurs when a force is applied to an object and it causes the object to move in the direction of the force. Energy, on the other hand, is the ability to do work.
2. What are the important points to remember about work and energy?
Ans. Some important points to remember about work and energy are: - Work is only done when there is a displacement of the object in the direction of the applied force. - Work done can be positive, negative, or zero, depending on the angle between the force and displacement vectors. - Energy can exist in different forms such as kinetic energy, potential energy, and thermal energy. - The total mechanical energy of an object is the sum of its kinetic and potential energy. - The law of conservation of energy states that energy cannot be created or destroyed, only transferred or transformed from one form to another.
3. How are work and energy related?
Ans. Work and energy are closely related as work is the transfer of energy. When work is done on an object, it gains or loses energy. The work done on an object is equal to the change in its energy.
4. Can work be done without energy?
Ans. No, work cannot be done without energy. Work requires energy to be transferred from one object to another or to change the energy state of an object. In order to do work, there must be a source of energy.
5. How does the concept of work and energy apply in everyday life?
Ans. The concept of work and energy applies in various aspects of everyday life. For example: - When we push or pull an object, we are doing work by transferring energy to it. - When we use electrical appliances, energy is being converted into different forms to perform tasks. - When we ride a bicycle, the energy from our muscles is transferred to the pedals, doing work and propelling the bicycle forward. - When we cook food, the energy from the stove is transferred to the food, causing it to cook. - When we turn on a light bulb, electrical energy is converted into light energy, providing us with illumination.
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