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Work Done by A Constant Force Questions and Answers PDF Download eBook

Work Done by A Constant Force trivia questions and answers, work done by a constant force quiz answers PDF 42 to practice applied physics exam questions for online classes. Practice "Applied Physics Work and Energy" trivia questions and answers, work done by a constant force Multiple Choice Questions (MCQ) to practice physics test with answers for online college degrees. Free work done by a constant force MCQs, velocity formula, logic gates, significant figures calculations, equilibrium of torque, work done by a constant force test prep for online colleges that offer financial aid.

"When an object is moved in the gravitational field, it is", work done by a constant force Multiple Choice Questions (MCQ) with choices work done by a variable force, work done by a constant force, work done by a gravitational field, and both a and b for schools that offer online bachelor degrees. Learn applied physics work and energy questions and answers for SAT subject tests. Work Done by A Constant Force Video

Trivia Quiz on Work Done by A Constant Force PDF Download eBook

Work Done by A Constant Force Quiz

MCQ: When an object is moved in the gravitational field, it is

  1. work done by a constant force
  2. work done by a variable force
  3. work done by a gravitational field
  4. both a and b

C

Equilibrium of Torque Quiz

MCQ: If counter clockwise is taken as positive, then anti-clockwise will be taken as

  1. positive
  2. negative
  3. doubled
  4. halved

A

Significant Figures Calculations Quiz

MCQ: Number of digits that are reasonably sure are called

  1. limitation of instruments
  2. systematic error
  3. frequent error
  4. significant figures

D

Logic Gates Quiz

MCQ: Gate that is also known as inverter is called

  1. OR
  2. NOT
  3. XOR
  4. NAND

B

Velocity Formula Quiz

MCQ: If 'd' is the displacement of body in time 't', then the average velocity will be represented as

  1. Vavg = (d/t)
  2. Vavg = (t/d)
  3. Vavg = (d + t)
  4. Vavg = (d-t)

A