How you can convert a galvanometer to a voltmeter, Electrical Engineering

Assignment Help:

To convert a galvanometer to a voltmeter, you should add a:

a) High resistance in series

b) High resistance in parallel

c) Low resistance in series

d) Low resistance in parallel

Ans:

To convert a galvanometer to a voltmeter, you should add a high resistance in series.

Related Discussions:- How you can convert a galvanometer to a voltmeter

Electrical System Design, List four sources of information which are essent...

List four sources of information which are essential to the designer of this electrical installation

What is the probability that a call will be blocked, A three stage switchin...

A three stage switching structure is to accommodate N = 128 input and 128 output terminals. For 16 first stage and 16 last stage, verify the number of cross points for nonblocking.

Humming , I am getting humming noice in speaker when I connect to laptop on...

I am getting humming noice in speaker when I connect to laptop on ac when I put it on dc (battery) it''s dispear . Please help

Explain lithography, Explain Lithography. Lithography - This is one ...

Explain Lithography. Lithography - This is one of the processes which is carried out throughout manufacture of integrated circuits. Silica oxide (SiO 2 ) layer is thermally

Logically and the contents of register, Logically AND the contents of Reg...

Logically AND the contents of Register Contents of register are logically AND with the accumulator bit wise. The result of the AND operation is stored in the accumulat

Dc motor control, how thyristor work in speed control??

how thyristor work in speed control??

Determine impedance - resultant current and power factor, Determine Impedan...

Determine Impedance - Resultant current and Power factor: In series R-L circuit, illustrated in Figure , Determine 1. Impedance, 2. Resultant current, 3.

Find resistance when the bridge is balanced, Q. Consider the bridge circuit...

Q. Consider the bridge circuit given in Figure with R 1 = 24 k, R 2 = 48 k, and R 3 = 10 k. Find R when the bridge is balanced with V = 0.

Explain node-voltage and mesh-current analyses, Explain Node-voltage and me...

Explain Node-voltage and mesh-current analyses? The node-voltage and mesh-current methods, which complement each other, are well-ordered systematic methods of analysis for solv

Explain current and magnetic force, Q. Explain Current and Magnetic Force? ...

Q. Explain Current and Magnetic Force? The rate ofmovement of net positive charge per unit of time through a cross section of a conductor is known as current, i(t) = dq / dt

Write Your Message!

Name

Email id

Message

Verfication Code

User Account

All Pages