20:36 MQ4. A substance takes in energy of Q 1 pointto increase its temperature by AT.Which formula can calculate the heatcapacity (C) of the substance? *C-Q ΔΤC = Q/ATC- ΔΤ/QQ5. The more massive a substance,1 pointthethe heat capacity. *smallersamelargerQ6. The specific heat capacity of a1 pointsubstance is defined as: *the amount of energy required forsubstance of 1 kg to increase thetemperature by 1 °C.the amount of energy for a substancerequired to increase the temperature by 1°C.the volume of substance to store 1 °C ofheat.IIO O O

To determine: The correct option.

Q4. A substance takes in energy of Q to increase its temperature by AT. Which formula can calculate the heat capacity (C) of the substance? * C = QAT C = Q/AT C = AT/Q Q5. The more massive a substance, the the heat capacity. smaller same larger Q6. The specific heat capacity of a substance is defined as: * the amount of energy required for substance of 1 kg to increase the temperature by 1 °C. the amount of energy for a substance required to increase the temperature by °C. the volume of substance to store 1 °C o heat. O O

Q4. A substance takes in energy of Q to increase its temperature by AT. Which formula can calculate the heat capacity (C) of the substance? * C = QAT C = Q/AT C = AT/Q Q5. The more massive a substance, the the heat capacity. smaller same larger Q6. The specific heat capacity of a substance is defined as: * the amount of energy required for substance of 1 kg to increase the temperature by 1 °C. the amount of energy for a substance required to increase the temperature by °C. the volume of substance to store 1 °C o heat. O O

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

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Similar questions

10. How much thermal energy do you need to melt 1.0 gram of ice (an ice cube)? The latent heat of water is 334,000 J per kilogram. * A. 334 joules B. 334 kilojoules C. 3,340 kilojoules D. 33,400 kilojoules E. 334,000 kilojoules
Heat Capacity Calculate the quantity of heat required to raise the temperature of 11 kg of water from 10°C to 100°C. Assume the specific heat capacity of water is 4200 J/(kg°C). a. 4.158MJ C. 4.981MJ b. 3.158MJ d. 3.981MJ A block of cast iron having a mass of 8 kg cools from a temperature of 130°C to 40°C. How much energy is lost by the cast iron? Assume the heat capacity of iron is 500J/(kg °C)? - 341.212822 BTU a. a. b. C. b. - 314.534222 BTU d. - 361.264327 BTU A copper container of mass 500 g contains 1 liter of water at 280°K. Calculate the quantity of heat required to raise the temperature of the water and container to boiling point. Assume that there are no heat losses. 428.62275 KJ 408.46275 KJ - 311.523652 BTU C. d. 508.73315 KJ 478.67543 KJ
help asap
The temperature on a warm summer day is 104 ° F. What is this temperature a. in degrees Celsius? b. on the absolute (Kelvin) scale
Coefficient of linear thermal expansion is measured in the units of...choose one correct answer A. Calorie B. 1 / 0C [ 1 divided by degree celsius] C. 0C [ degree celsius] D. meter
Choose the most suitable definition for "heat". Select one: a. Flow of energy in structural units of chemical substances b. Energy associated with the random motion of atoms and molecules c. Energy stored in structural units of chemical substances d. Difference between the final and initial thermal energy of a system
7. How much thermal energy do you need to raise 1.0 kg of water at room temperature 35 °C to boiling? The specific heat of water is 4190 J/kg-K. * A. 136 kilojoules B. 272 kilojoules C. 54 kilojoules D. 1416 kilojoules O E. 4190 kilojoules
How does the rate of heat transfer by conduction change when all spatial dimensions are tripled?
4. When you boil water in a pot on the stove, which heats faster, the metal or the water? Explain. 5. Why do you think different substances heat up and cool down at different rates? 6. Based on the definition above, which of the 4 substances do you think has: a) the highest specific heat capacity? b) the lowest heat capacity? 7. Here are the heat capacities of the four substances: 4.18 J/g °c, 1.00 J/g °c, 0.80 J/g °c, and 0.60 J/g °c. Match and then label each substance with its specific heat capacity on the graph.
Q7.
Question 2
1. A red-hot horseshoe is placed on an anvil at room temperature. Which way does the heat flow? Explain.2. How are refrigerators and heat engines related?