A metal rod has initial length L0 = 2.50 m and a linear expansion coefficient alpha = 2.5 × 10^-5 per °C. If the temperature increases by delta T = 75 °C, what is the change in length delta L?

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Multiple Choice

A metal rod has initial length L0 = 2.50 m and a linear expansion coefficient alpha = 2.5 × 10^-5 per °C. If the temperature increases by delta T = 75 °C, what is the change in length delta L?

When a metal heats up, its length increases in proportion to how much the temperature changes. The change in length is given by ΔL = α L0 ΔT. Here, α = 2.5 × 10^-5 per °C, L0 = 2.50 m, and ΔT = 75 °C.

Compute αΔT: (2.5 × 10^-5)(75) = 1.875 × 10^-3. Then ΔL = (1.875 × 10^-3)(2.50 m) = 4.6875 × 10^-3 m, which rounds to 0.00469 m.

So the rod lengthens by about 0.00469 m (4.69 mm).

A metal rod has initial length L0 = 2.50 m and a linear expansion coefficient alpha = 2.5 × 10^-5 per °C. If the temperature increases by delta T = 75 °C, what is the change in length delta L?

Prepare for the OnRamps Physics Test with our comprehensive quiz. Engage with flashcards, multiple choice questions, detailed hints, and explanations. Elevate your understanding and boost your confidence for the exam!

A metal rod has initial length L0 = 2.50 m and a linear expansion coefficient alpha = 2.5 × 10^-5 per °C. If the temperature increases by delta T = 75 °C, what is the change in length delta L?

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