Tag: applications of electromagnets

Questions Related to applications of electromagnets

Multiple choice physics electro-magnetism applications of electromagnets transformer transformers

Why are transformers used in the transmission of electric power?

  1. Because they can reduce transmission losses

  2. Because they can conserve electrical energy

  3. Because they speed up transmission

  4. Because they help to distribute electrical energy efficiently

Reveal answer Fill a bubble to check yourself
A,D Correct answer
Explanation

Transformer used in the transmission of electrical power because they help to distribute electrical energy efficiently and can reduce transmission loss.

Multiple choice physics electro-magnetism applications of electromagnets transformer transformers

Which of the following statement about the action of a transformer is correct?

  1. Alternating current always flows in the secondary coil when an alternating voltage is applied to the primary coil.

  2. The current in the secondary coil is always larger than the current in the primary coil.

  3. An e.m.f. is induced in the secondary coil when an alternating voltage is applied to the primary coil.

  4. An e.m.f. is induced in the secondary coil when a steady direct current flows in the primary coil.

Reveal answer Fill a bubble to check yourself
C Correct answer
Explanation

Alternating current does not flow in the secondary coil unless electrical load is connected to its terminals.
In step-up transformer current in secondary coil is less than the current in primary coil.
No e.m.f. is induced in the secondary coil if the primary coil is connected to a d.c. supply.

Multiple choice physics electro-magnetism applications of electromagnets transformer transformers

The current drawn by the primary of a transformer, which steps down 200 V to 20 V to operate a device of resistance 20 $\Omega$ is: (Assume the efficiency of the transformer to be 80 %)

  1. 0.125 A

  2. 0.225 A

  3. 0.325 A

  4. 0.425 A

Reveal answer Fill a bubble to check yourself
A Correct answer
Explanation
$V _{primary} =200\ V$
$V _{secondary}=20\ V$
$R=20\ \Omega$
Power secondary $=\dfrac {(V _{secondary}^2)}{R}$

                               $=20\ W$

Power primary $=\dfrac {20}{\dfrac {80}{100}}=25\ w\quad (80\%\ efficiency)$

Power primary $=(I _{primary}) (V _{primary})$
$25=I _P \times 200$
$I _P=0.125\ A$
Option $(A)$
Multiple choice physics electro-magnetism applications of electromagnets transformer transformers

In a step up transformer the turn ratio is 1:2. A Leclanche cell (emf = 1.5 V) is connected across the primary. The voltage across the secondary is

  1. 3.0 V

  2. 1.5 V

  3. 0.75 V

  4. 0

Reveal answer Fill a bubble to check yourself
A Correct answer
Explanation

For the step up transformer -

$\dfrac { { V } _{ 1 } }{ { V } _{ 2 } } =\dfrac { { n } _{ 1 } }{ { n } _{ 2 } } $

$\dfrac { 1.5 }{ { V } _{ 2 } } =\dfrac { 1 }{ 2 } $

$\Rightarrow { V } _{ 2 }=3V$.

Multiple choice physics electro-magnetism applications of electromagnets transformer transformers

A transformer works on the principle of

  1. self induction

  2. electrical inertia

  3. mutual induction

  4. magnetic effect of the electrical current

Reveal answer Fill a bubble to check yourself
C Correct answer
Explanation
Transformer is based on the principle of electromagnetic induction.
There are two coils named as primary and secondary wound on a soft iron core.
When AC is applied to the primary coi, the resulting current will the production of
continously varying magnetic flux.
Due to mutual induction, induced EMF is produced in secondary coil which in return results in current.  
Multiple choice physics electro-magnetism applications of electromagnets transformer transformers

Transformer is used to

  1. convert ac to dc voltage

  2. convert dc to ac voltage

  3. obtain desired dc power

  4. obtain desired ac voltage and current

Reveal answer Fill a bubble to check yourself
D Correct answer
Explanation
Transformer converts some value of voltage/current into some other desired value based upon the principles of mutual induction.
Transformer is based on the principle of electromagnetic induction. There are two coils named as primary and secondary wound on a soft iron core. When AC is applied to the primary coil, the resulting current will the production of continuously varying magnetic flux. Due to mutual induction, induced EMF is produced in secondary coil which in return results in current.  

Multiple choice physics magnetism and electromagnetism applications of electromagnets transformer transformers

The magnetic resonance imaging is used as a tool of diagnosis to detect the injuries in human body. It is based on the principle that:

  1. Protons in different types of human tissues have specific magnetic field environment

  2. Magnetic field pattern of human body resonates with the externally applied magnetic field

  3. Either $(1)$ or $(2)$

  4. Neither $(1)$ nor $(2)$

Reveal answer Fill a bubble to check yourself
A Correct answer
Explanation

The basic principle of MRI is protons in different types of human tissues have specific magnetic field environment.