O Level Online Exam Test Quiz Questions and Answers 147 PDF Download

Learn o level online exam test quizzes, Cambridge IGCSE physics online test 147 for distance learning degree, online courses. Colleges and universities courses, MCQs on kinetic theory of particles quiz, o level online exam test multiple choice questions and answers to learn physics quiz with answers. Practice o level online exam test MCQs career test assessment on measurement of time, boiling and condensation, physics of temperature, transmission of sound, o level online exam test practice test for online physics 1 courses distance learning.

Study bachelor degree and masters degree in physics questions, o level online exam test course online has multiple choice question (MCQs): volume of gas is with options directly proportional to temperature, inversely proportional to temperature, directly proportional to friction and inversely proportional to heat for an associate degree, graduate degree and masters degree students for online eLearning preparation. Learn kinetic theory of particles quiz questions with problem solving skills assessment test. O Level Online Exam Test Video

Quiz on O Level Online Exam TestQuiz PDF Download Worksheet 147

O Level Online Exam Test Quiz

MCQ: Volume of gas is

  1. directly proportional to temperature
  2. inversely proportional to temperature
  3. directly proportional to friction
  4. inversely proportional to heat

A

Transmission of Sound Quiz

MCQ: Sound waves travel at

  1. same speed in different mediums
  2. different speed in same mediums
  3. different speed in different mediums
  4. highest speed in vacuum

C

Physics of Temperature Quiz

MCQ: SI unit for temperature is

  1. Centigrade
  2. Fahrenheit
  3. Kelvin
  4. Celsius

C

Boiling and Condensation Quiz

MCQ: Reverse process that involves changing a gas to a liquid is known as

  1. Melting
  2. Boiling
  3. Condensation
  4. Solidification

C

Measurement of Time Quiz

MCQ: For a simple pendulum, relation between periodic time 'T', length of pendulum 'l' and acceleration due to gravity 'g' is given by

  1. T = 2π ( l ⁄ √g )
  2. T = 2π ( l ⁄ g )
  3. T = 2π √l ⁄ g
  4. None of the above

D