# Heat Capacity: Physics Quiz Questions and Answers 2 PDF Book Download

Heat capacity physics quiz questions, heat capacity physics MCQs answers, IGCSE physics quiz 2 to learn physics online courses. Thermal properties of matter quiz questions, heat capacity physics multiple choice questions (MCQs) to practice physics test with answers for online colleges and universities courses. Learn heat capacity: physics MCQs, forces and motion, scalar and vector, heat capacity: physics test prep for physics certifications.

Learn heat capacity physics test with multiple choice question (MCQs): in a laboratory, bunsen burner is used to increase temperature of lime from 10 °c to 50 °c with thermal energy of 80000 j. if mass of lime is 20 kg, specific heat capacity of lime would be, with choices 25 j kg^{-1} °c^{-1}, 50 j kg^{-1} °c^{-1}, 75 j kg^{-1} °c^{-1}, and 100 j kg^{-1} °c^{-1} for undergraduate degree. Learn thermal properties of matter questions and answers for problem-solving, merit scholarships assessment test. Heat Capacity: Physics Video

## Quiz on Heat Capacity: PhysicsQuiz Book Download Worksheet 2

Heat Capacity: Physics Quiz

MCQ: In a laboratory, Bunsen burner is used to increase temperature of lime from 10 °C to 50 °C with thermal energy of 80000 J. If mass of lime is 20 kg, specific heat capacity of lime would be

- 25 J kg
^{-1}°C^{-1} - 50 J kg
^{-1}°C^{-1} - 75 J kg
^{-1}°C^{-1} - 100 J kg
^{-1}°C^{-1}

D

Scalar and Vector Quiz

MCQ: Displacement is a

- Scalar quantity
- Vector quantity
- Base quantity
- Derived quantity

B

Forces and Motion Quiz

MCQ: A boy of mass 50 kg runs with a force of 100 N, his acceleration would be

- 5000 m s
^{-2} - 50 m s
^{-2} - 150 m s
^{-2} - 2 m s
^{-2}

C

Heat Capacity: Physics Quiz

MCQ: Heat capacity of sodium metal is 1500 JK^{-1}, if mass of sodium metal is 75 kg, specific heat capacity would be

- 10 J kg
^{-1}°C^{-1} - 20 J kg
^{-1}°C^{-1} - 40 J kg
^{-1}°C^{-1} - 80 J kg
^{-1}°C^{-1}

B

Introduction to Forces Quiz

MCQ: SI unit for force is

- Kilograms
- Newton
- Joules
- acceleration

B