Explanation The power of the heater is 1000 W , the mass of the ice is 1.00 kg and as ice starts to melt at 0 ° C , the change in temperature is 20 ° C . In the process of melting the ice at − 20 ° C , there are two parts, first the temperature should be raised to the melting temperature of ice and second part is the phase change of ice from solid to liquid. Write the formula for energy transferred by heat that resulting in phase change (solid to liquid) Q = m L f (I) Write the formula for energy transferred by heat that resulting in temperature change Q = m c Δ T (II) Write the formula for the rate of energy transfer by heat P = Q Δ t (III) Here, L f is the latent heat of fusion, P is the power, Δ t is the time taken, Q is the energy transferred, m is the mass, c is the specific heat of the substance and Δ T is the change in temperature. The total energy transferred to the system is Q = m c i c e Δ T + m L f Substitute 1.00 kg for m , 2090 J / kg ⋅ ° C for c i c e , 20.0 ° C for Δ T and 3.33 × 10 5 J / kg for L f in the above equation to find the value of Q Q = ( 1

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN: 9781133104261

Author: Raymond A. Serway, John W. Jewett

Publisher: Cengage Learning

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Chapter 17, Problem 3OQ

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The time taken for the heater to melt 1.00 kg of ice.

Solution Summary: The author explains the process of melting ice at -20°C and the formula for the rate of energy transfer by heat.

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