Explanation Given data: Resistance ( R ) is 15 Ω . Voltage ( V ) is 120 V . Mass ( m ) is 0.50 kg Temperature ( T 0 ) is 13 ° C . Formula used: Write the expression for time ( t ) . t = Q P (1) Here, Q is the heat, and P is the power. Write the expression for heat ( Q ) . Q = c m Δ T Here, c is the specific heat of aluminum, m is the mass of aluminum, and Δ T is the increase in temperature. Write the expression for Power ( P ) . P = V 2 R Here, V is the voltage, and R is the resistance. Write the expression for change in temperature ( Δ T ) . Δ T = T − T 0 (2) Here, T is the normal boiling point temperature, and T 0 is the initial temperature. Explanation: Refer to Table 12.2 in the textbook for specific heat capacities of some solids and liquids. The specific heat of water is 4186 J kg ⋅ C °

Cutnell & Johnson Physics - Eleventh Edition

11th Edition

ISBN: 9781119391869

Author: Shane Stadler David Young

Publisher: WILEY

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Chapter 20, Problem 28P

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The time taken for the heater to raise the temperature of water to the normal boiling point.

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Chapter 20, Problem 27P

Chapter 20, Problem 29P

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Cutnell & Johnson Physics - Eleventh Edition

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