Class 9 Science Work and Energy

Class 9 Science – Work and Energy

Introduction

Work is said to be done when a force applied on an object causes displacement in the direction of the force.
Energy is the capacity to do work.

Work

Conditions for Work to be Done

A force must act on an object.
The object must move in the direction of the force.

Formula:

$\text{Work} = \text{Force} \times \text{Displacement}$ Work=Force×Displacement

SI unit of work: Joule (J)
1 joule = work done when a force of 1 N moves an object by 1 m.

Types of Work

Positive Work: Force and displacement in same direction.
Negative Work: Force and displacement in opposite directions.
Zero Work: No displacement or force perpendicular to motion.

Energy

Energy exists in different forms.

1. Kinetic Energy

Energy possessed due to motion.
Formula:

$KE = \frac{1}{2}mv^2$ KE=21mv2

2. Potential Energy

Energy possessed due to position or shape.
Formula:

$PE = mgh$ PE=mgh

Mechanical Energy

Sum of kinetic and potential energy.

Law of Conservation of Energy

Energy can neither be created nor destroyed, but it can be converted from one form to another.
Total energy of a system remains constant.

Power

Rate of doing work.
Formula:

$\text{Power} = \frac{\text{Work}}{\text{Time}}$ Power=TimeWork

SI unit: Watt (W)
1 watt = 1 joule per second.

Commercial Unit of Energy

Kilowatt-hour (kWh)
1 kWh = 3.6 × 10⁶ J
Used for measuring electrical energy consumption.

Important Applications

Moving vehicles
Falling objects
Hydroelectric power plants
Electrical appliances

Quick Short Q&A (Most Possible)

Question	Short Answer
What is work?	Force causing displacement
SI unit of work?	Joule
What is energy?	Capacity to do work
Kinetic energy formula?	½mv²
Potential energy formula?	mgh
Law of conservation of energy?	Energy cannot be created or destroyed
What is power?	Rate of doing work
SI unit of power?	Watt
Commercial unit of energy?	kWh
1 kWh equals?	3.6 × 10⁶ J