Mada za sehemu hiiThermal Current ElectricityMada 5
- Electromotive Force(emf) and Potential Difference(pd)
- Resistance to Electric Current
- Effect of an Electric Current
- Electric Installation
- Cells
Electricity is a form of energy. This can be demonstrated using an electric circuit where a resistor is placed in water and a current is passed through it.
When the key K is closed, current flows through the wire (resistor), and the water heats up. This shows that electrical energy is converted into heat energy.
Suppose the increase in temperature of water is Q, then the heat gained by water is:
Where:
H = heat energy (Joules)
M = mass of water (kg)
C = specific heat capacity (J/kg·K)
Q = change in temperature (K)
- Current (I) — Heat produced increases with the square of the current.
- Resistance (R) — Heat produced increases with resistance.
- Time (t) — The longer the current flows, the more heat is produced.
Mathematically:
Where K is a constant (K = 1 in SI units), so:
By Ohm's Law, , so:
This is known as Joule's Law of Heating.
One joule is the work done when a charge of one coulomb flows through a conductor with a potential difference of one volt in one second.
An electric kettle has a wire of resistance 5Ω. 1kg of water is to be heated from 300K to 373K in 10 minutes. What current must flow through the wire?
Given:
Step 1: Thermal energy required
Step 2: Use Joule's law:
Power (P) is the rate at which electrical energy is delivered:
Also, since :
An electric iron is rated 240V, 2000W. Find:
(a) Current:
(b) Resistance:
The commercial unit of electrical energy is the Kilowatt-hour (kWh).
An electric iron rated 240V, 2000W is used for 10 hours.
Cost of electrical energy = Tshs 100 per unit (1 unit = 1kWh).
Energy used:
Cost:
Cost of using the appliance = 2000 Tsh.
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