Work in Physics Quiz Questions and Answers 51 PDF Book Download

Work in physics quiz questions and answers, work in physics online learning, IGCSE physics test prep 51 for distance education eCourses. Undergraduate degree and master's degree eCourses MCQs on energy, work and power quiz, work in physics multiple choice questions to practice physics quiz with answers. Learn work in physics MCQs, career aptitude test on heat capacity: physics, states of matter, pressure in gases, meter rule and measuring tape, work in physics test for online learn basic physics courses distance learning.

Practice work in physics career test with multiple choice question (MCQs): work can only be done when there is, for online certificate courses with options force, power, energy, efficiency for e-learning, online colleges' competitive exams to get financial aids in colleges and high schools. Learn online energy, work and power questions and answers with problem-solving skills assessment test. Work in Physics Video

Quiz on Work in PhysicsQuiz Book Download Worksheet 51

Work in Physics Quiz

MCQ: Work can only be done when there is

  1. Force
  2. Power
  3. Energy
  4. Efficiency

C

Meter Rule and Measuring Tape Quiz

MCQ: A meter rule can measure a maximum length of

  1. 0.5 meter
  2. 1 meter
  3. 1.5 meter
  4. 2 meter

B

Pressure in Gases Quiz

MCQ: For a constant temperature, Boyle's law states that

  1. the pressure of a fixed amount of gas is directly proportional to the volume of the gas
  2. the pressure of a fixed amount of gas is inversely proportional to the volume of the gas
  3. the pressure of a fixed amount of gas is independent of the volume of the gas
  4. None of the above

B

States of Matter Quiz

MCQ: Gases have

  1. low density
  2. ductility
  3. brutality
  4. high density

A

Heat Capacity: Physics Quiz

MCQ: Heat capacity of a substance is defined as

  1. the amount of heat required to raise the temperature of a substance by 1 K
  2. the amount of heat required to raise the temperature of a substance by 1 °C
  3. specific heat capacity × mass of the substance
  4. All of the above

D