Part 1: Consider two objects, A and B, which has different temperatures. Also assume that A is hotter then B. What does the 0th law of thermodynamics say about this situation? OIt says that A and B are in thermodynamic equilibrium. OIt says that A must be transferring heat to B. OIt says that A and B are *not* in thermodynamics equilibrium. OThe zeroth law of thermodynamics does not apply to this situation. O It says that B must be transferring heat to A. Part 2: Which temperature scale is defined relative to the freezing and boiling points of water? O Fahrenheit is defined so that 32 is the freezing point of water and 212 is the boiling point. O Kelvin is defined so that 273 is the freezing point of water and 373 is the boiling point. O Celsius is defined so that 0 is the freezing point of water and 100 is the boiling point. Part 3: What temperature, in Celsius, is 100 K? O-173 CO-73 CO 73 CO-273 C
Part 1: Consider two objects, A and B, which has different temperatures. Also assume that A is hotter then B. What does the 0th law of thermodynamics say about this situation? OIt says that A and B are in thermodynamic equilibrium. OIt says that A must be transferring heat to B. OIt says that A and B are *not* in thermodynamics equilibrium. OThe zeroth law of thermodynamics does not apply to this situation. O It says that B must be transferring heat to A. Part 2: Which temperature scale is defined relative to the freezing and boiling points of water? O Fahrenheit is defined so that 32 is the freezing point of water and 212 is the boiling point. O Kelvin is defined so that 273 is the freezing point of water and 373 is the boiling point. O Celsius is defined so that 0 is the freezing point of water and 100 is the boiling point. Part 3: What temperature, in Celsius, is 100 K? O-173 CO-73 CO 73 CO-273 C
College Physics
1st Edition
ISBN:9781938168000
Author:Paul Peter Urone, Roger Hinrichs
Publisher:Paul Peter Urone, Roger Hinrichs
Chapter15: Thermodynamics
Section: Chapter Questions
Problem 64PE: In an air conditioner, 12.65 MJ of heat transfer occurs from a cold environment in 1.00 h. (a) What...
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