SATHEE: Electromagnetic Induction Ques 36

Electromagnetic Induction Ques 36

36. A coil of resistance $400 $ $\Omega$ is placed in a magnetic field. If the magnetic flux $\phi$ (wb) linked with the coil varies with time $t$ (sec) as $\phi=50 t^{2}+4$. The current in the coil at $t=2 $ $sec$ is :

[2012]

(a) $0.5 $ $A$

(b) $0.1 $ $A$

(c) $2 $ $A$

(d) $1 $ $A$

Show Answer

Answer:

Correct Answer: 36.(a)

Solution:

(a) According, to Faraday’s law of induction

Induced e.m.f. $\varepsilon=-\frac{d \phi}{d t}=-(100$ $ t)$

Induced current $i$ at $t=2 $ $sec$.

$=|\frac{\varepsilon}{R}|=+\frac{100 \times 2}{400}=+0.5 $ $A$

The magnetic flux linked with a loop does not change when magnet and loop are moving with the same velocity.

The Ministry of Education has launched the SATHEE initiative in association with IIT Kanpur to provide free guidance for competitive exams. SATHEE offers a range of resources, including reference video lectures, mock tests, and other resources to support your preparation. Please note that participation in the SATHEE program does not guarantee clearing any exam or admission to any institute.

Ask SATHEE

Welcome to SATHEE !
Select from 'Menu' to explore our services, or ask SATHEE to get started. Let's embark on this journey of growth together! 🌐📚🚀🎓

I'm relatively new and can sometimes make mistakes.
If you notice any error, such as an incorrect solution, please use the thumbs down icon to aid my learning.
To begin your journey now, click on "I understand".

Electromagnetic Induction

Electromagnetic Induction Ques 36

36. A coil of resistance $400 $ $\Omega$ is placed in a magnetic field. If the magnetic flux $\phi$ (wb) linked with the coil varies with time $t$ (sec) as $\phi=50 t^{2}+4$. The current in the coil at $t=2 $ $sec$ is :

Answer:

Table of Contents

Engineering Preparation

Medical Preparation

NCERT Books & Solutions

Important Resources

Other Resources

Syllabus

Mentorship