Work, Energy and Power
1. Work
- Work is said to be done when a force is applied and the object is displaced in the direction of force.
- Work is a scalar quantity.
- Formula:
W = F · d · cos(θ) -
Where:
W= Work done (in joules)F= Magnitude of the applied force (in newtons)d= Displacement of the object (in meters)θ= Angle between force and displacement
- Units: SI Unit is Joule (J)
- Types of Work:
- Positive Work (0° ≤ θ < 90°)
- Negative Work (90° < θ ≤ 180°)
- Zero Work (θ = 90°)
2. Energy
- Energy is the capacity of a body to do work.
- It is a scalar quantity.
- SI Unit: Joule (J)
- Types of Energy:
- Kinetic Energy (KE) – due to motion
- Potential Energy (PE) – due to position or configuration
- Formulas:
- Kinetic Energy:
KE = 1/2 · m · v² - Potential Energy:
PE = m · g · h - Where:
m= mass of object (kg)v= velocity (m/s)g= acceleration due to gravity (9.8 m/s²)h= height (m)
3. Work-Energy Theorem
- This theorem states that the work done by all forces acting on a particle equals the change in its kinetic energy.
- Formula:
W = ΔKE = KE_final - KE_initial - This is a powerful tool for solving motion problems without using kinematic equations.
4. Power
- Power is the rate of doing work or the rate of transfer of energy.
- Formula:
P = W / t - Where:
P= Power (watts)W= Work done (joules)t= Time taken (seconds)
- SI Unit: Watt (W)
- Other units:
- 1 kilowatt (kW) = 1000 W
- 1 horsepower (HP) ≈ 746 W
5. Commercial Unit of Energy
- Commercial units of energy are used in electricity bills.
- Unit: kilowatt-hour (kWh)
- 1 kWh = 1000 watts × 3600 seconds =
3.6 × 10⁶ J
6. Law of Conservation of Energy
- Energy can neither be created nor destroyed, it can only change from one form to another.
- Total energy of an isolated system remains constant.
- Example: In a pendulum, energy converts between potential and kinetic energy continuously.