EMF & Potential Difference Quiz Questions and Answers 100 PDF Download

Learn emf & potential difference quiz, online applied physics test 100 for online courses, distance learning. Free physics MCQs questions and answers to learn emf & potential difference MCQs with answers. Practice MCQs to test knowledge on emf and potential difference, applications of bernoullis equation, terminal velocity, vector addition by rectangular components, kirchoffs law for teaching college students with interactive tests.

Free emf & potential difference course worksheet has multiple choice quiz question as potential difference of a battery is 2.2 v when it is connected across a resistance of 5 ω, if suddenly potential difference falls to 1.8 v, its internal resistance will be with options 1 ω, 1.1 ω, 2 ω and 2.1 ω with problems solving answer key to test study skills for online e-learning, viva help and jobs' interview preparation tips, study current electricity multiple choice questions based quiz question and answers. EMF & Potential Difference Video

Quiz on EMF & Potential Difference Quiz PDF Download Worksheet 100

EMF and Potential Difference Quiz

MCQ. Potential difference of a battery is 2.2 V when it is connected across a resistance of 5 Ω, if suddenly potential difference falls to 1.8 V, its internal resistance will be

  1. 1 Ω
  2. 1.1 Ω
  3. 2 Ω
  4. 2.1 Ω

B

Applications of Bernoullis Equation Quiz

MCQ. According to Bernoulli's equation, where speed is high, pressure will be

  1. high
  2. low
  3. min
  4. max

B

Terminal Velocity Quiz

MCQ. When net force acting on a droplet becomes zero, it falls with

  1. increasing speed
  2. decreasing speed
  3. constant speed
  4. zero velocity

C

Vector Addition by Rectangular Components Quiz

MCQ. Process of vector addition by rectangular components consists of

  1. 4 steps
  2. 5 steps
  3. 6 steps
  4. 7 steps

B

Kirchoffs Law Quiz

MCQ. Equation (I1 + I2 = I3 + I4) satisfies statement of

  1. Kirchhoff's second rule
  2. Kirchhoff's first rule
  3. Kirchhoff's third rule
  4. Kirchhoff's fourth rule

D