A wire has a resistance of 10 Ω at 20°C. If the temperature coefficient of resis

A wire has a resistance of 10 Ω at 20°C. If the temperature coefficient of resistivity is 0.004/°C, what will be the resistance at 100°C?

A wire has a resistance of 10 Ω at 20°C. If the temperature coefficient of resistivity is 0.004/°C, what will be the resistance at 100°C?

Step 1: Identify the initial resistance (R0) of the wire at 20°C, which is 10 Ω.
Step 2: Identify the temperature coefficient of resistivity (α), which is 0.004/°C.
Step 3: Identify the initial temperature (T0), which is 20°C.
Step 4: Identify the final temperature (T), which is 100°C.
Step 5: Calculate the change in temperature (T - T0), which is 100°C - 20°C = 80°C.
Step 6: Multiply the temperature coefficient (α) by the change in temperature: 0.004 * 80 = 0.32.
Step 7: Add 1 to the result from Step 6: 1 + 0.32 = 1.32.
Step 8: Multiply the initial resistance (R0) by the result from Step 7: 10 Ω * 1.32 = 13.2 Ω.
Step 9: The final resistance at 100°C is 13.2 Ω.

Resistance and Temperature Coefficient – Understanding how resistance changes with temperature using the formula R = R0(1 + α(T - T0)).