Specific heat Solids (J/kg.K) Liquids Aluminum 900 Specific heat (J/kg.K) Bromine 473 Brass 402 Ethyl 2400 Copper 377 Alcohol Gasoline 2220 Glass 840 Gold 126 Glycerin 2430 Ice 2095 Mercury 140 Water 4186 Iron 461 Lead 130 Latent Heat Nickel 502 Substance (J/kg) Silver 239 Steam → water 2,260,000 Styrofoam 1131 Ice → water 333,000 Zinc 390 A.) A scientist adds 176 g of water at 90°C to ice at 0°C. If the final temperature of this closed system is 0°C, determine HOW MUCH ICE MELTED. B.) The scientist then adds 0.37 kg of steam at 100°C to 2.47 kg of ice at 0°C. Determine the temperature of the mixture once thermal equilibrium is reached. °C
Specific heat Solids (J/kg.K) Liquids Aluminum 900 Specific heat (J/kg.K) Bromine 473 Brass 402 Ethyl 2400 Copper 377 Alcohol Gasoline 2220 Glass 840 Gold 126 Glycerin 2430 Ice 2095 Mercury 140 Water 4186 Iron 461 Lead 130 Latent Heat Nickel 502 Substance (J/kg) Silver 239 Steam → water 2,260,000 Styrofoam 1131 Ice → water 333,000 Zinc 390 A.) A scientist adds 176 g of water at 90°C to ice at 0°C. If the final temperature of this closed system is 0°C, determine HOW MUCH ICE MELTED. B.) The scientist then adds 0.37 kg of steam at 100°C to 2.47 kg of ice at 0°C. Determine the temperature of the mixture once thermal equilibrium is reached. °C
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
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Transcribed Image Text:Specific heat
Solids
(J/kg.K)
Liquids
Aluminum
900
Specific heat
(J/kg.K)
Bromine
473
Brass
402
Ethyl
2400
Copper
377
Alcohol
Gasoline
2220
Glass
840
Gold
126
Glycerin
2430
Ice
2095
Mercury
140
Water
4186
Iron
461
Lead
130
Latent Heat
Nickel
502
Substance
(J/kg)
Silver
239
Steam →
water
2,260,000
Styrofoam
1131
Ice → water
333,000
Zinc
390
A.) A scientist adds 176 g of water at 90°C to ice at 0°C. If the final
temperature of this closed system is 0°C, determine HOW MUCH ICE
MELTED.
B.) The scientist then adds 0.37 kg of steam at 100°C to 2.47 kg of
ice at 0°C. Determine the temperature of the mixture once thermal
equilibrium is reached.
°C
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