A.) A scientist adds 352 g of water at 61°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 0.28 kg of steam at 100°C to 1.09 kg of ice at 0°C. Determine the temperature of the mixture once thermal equilibrium is reached. °C

College Physics
11th Edition
ISBN:9781305952300
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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Solids
Aluminum
Brass
Copper
Glass
Gold
Ice
Iron
Lead
Nickel
Silver
Styrofoam
Zinc
Specific heat
(J/kg-K)
900
402
377
840
126
2095
461
130
502
239
1131
390
Liquids
Bromine
Ethyl
Alcohol
Gasoline
Glycerin
Mercury
Water
Substance
Steam water
Ice water
Specific heat
(J/kg.K)
473
2400
2220
2430
140
4186
Latent Heat
(J/kg)
2,260,000
333,000
A.) A scientist adds 352 g of water at 61°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 0.28 kg of steam at 100°C to 1.09 kg of ice at 0°C.
Determine the temperature of the mixture once thermal equilibrium is reached.
°C
Transcribed Image Text:Solids Aluminum Brass Copper Glass Gold Ice Iron Lead Nickel Silver Styrofoam Zinc Specific heat (J/kg-K) 900 402 377 840 126 2095 461 130 502 239 1131 390 Liquids Bromine Ethyl Alcohol Gasoline Glycerin Mercury Water Substance Steam water Ice water Specific heat (J/kg.K) 473 2400 2220 2430 140 4186 Latent Heat (J/kg) 2,260,000 333,000 A.) A scientist adds 352 g of water at 61°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 0.28 kg of steam at 100°C to 1.09 kg of ice at 0°C. Determine the temperature of the mixture once thermal equilibrium is reached. °C
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