/*! This file is auto-generated */ .wp-block-button__link{color:#fff;background-color:#32373c;border-radius:9999px;box-shadow:none;text-decoration:none;padding:calc(.667em + 2px) calc(1.333em + 2px);font-size:1.125em}.wp-block-file__button{background:#32373c;color:#fff;text-decoration:none} Q.65 One possible concern with MRI (s... [FREE SOLUTION] | 91影视

91影视

Find study content
Learning Materials

Discover learning materials by subject, university or textbook.

Explanations

Textbooks
All Subjects

Anthropology

Archaeology

Architecture

Art and Design

Bengali

Biology

Business Studies

Greek

Chemistry

Chinese

Combined Science

Computer Science

Economics

Engineering

English

English Literature

Environmental Science

French

Geography

German

History

Hospitality and Tourism

Human Geography

Italian

Japanese

Law

Macroeconomics

Marketing

Math

Media Studies

Medicine

Microeconomics

Music

Nursing

Nutrition and Food Science

Physics

Polish

Politics

Psychology

Religious Studies

Sociology

Spanish

Sports Sciences

Translation

All Subjects

Biology

Business Studies

Chemistry

Combined Science

Computer Science

Economics

English

Environmental Science

Geography

History

Math

Physics

Psychology

Sociology
Features
Features

Discover all of these amazing features with a free account.

Flashcards

91影视 AI

Notes

Study Plans

Study Sets
What鈥檚 new?

Flashcards
Study your flashcards with three learning modes.

Study Sets
All of your learning materials stored in one place.

Notes
Create and edit notes or documents.

Study Plans
Organise your studies and prepare for exams.
91影视
Discover

All the hacks around your studies and career - in one place.

Find a degree

Magazine
Featured

Magazine
Trusted advice for anyone who wants to ace their studies & career.

The largest student job board with the most exciting opportunities.

Verified student deals from top brands.

Discover our mobile app to take your studies anywhere.

Learning Materials

Features

Discover

Chapter 30: Q.65 (page 873)

One possible concern with MRI (see Exercise 28) is turning the magnetic field on or off too quickly. Bodily fluids are conductors, and a changing magnetic field could cause electric currents to flow through the patient. Suppose a typical patient has a maximum cross section area of $0.060 m^{2}$ . What is the smallest time interval in which a $5.0 T$ magnetic field can be turned on or off if the induced $emf$ around the patient's body must be kept to less than $0.10 V ?$ ?

Short Answer

Expert verified

The smallest time interval, $d t = 3 s$

Step by step solution

01

Step 1:

The emf, is specified by Faradays, is the change in magnetic flux inside the loop, and it is given

$蔚 = |\frac{d 桅_{m}}{d t}|$

The flux it through loop is the measure of magnetic field that flows through a loop of area A and is given by

$桅_{m} = B A$

02

Magnetic Flux

We use the expression of $桅_{m}$

蔚 = A \frac{d (B A)}{d t} = A \frac{d B}{d t}

The values we provided for $A, 蔚 and d B$

$d t = A \frac{d B}{蔚}$

$= \frac{(0.060 m^{2}) (5 T)}{0.10 V}$

$= 3 s$

Unlock Step-by-Step Solutions & Ace Your Exams!

Full Textbook Solutions
Get detailed explanations and key concepts
Unlimited Al creation
Al flashcards, explanations, exams and more...
Ads-free access
To over 500 millions flashcards
Money-back guarantee
We refund you if you fail your exam.

Over 30 million students worldwide already upgrade their learning with 91影视!

One App. One Place for Learning.

All the tools & learning materials you need for study success - in one app.

Get started for free

Most popular questions from this chapter

What is the magnetic flux through the loop shown in FIGURE EX30.4?

Your camping buddy has an idea for a light to go inside your tent. He happens to have a powerful and heavy horseshoe magnet that he bought at a surplus store. This magnet creates a $0.20 T$ field between two pole tips $10 c m$ apart. His idea is to build the hand-cranked generator shown in FIGURE .He thinks you can make enough current to fully light a $1.0 鈩�$ lightbulb rated at $4.0 W$ . That鈥檚 not super bright, but it should be plenty of light for routine activities in the tent.

a. Find an expression for the induced current as a function of time if you turn the crank at frequency $f$ . Assume that the semicircle is at its highest point at $t = 0 s$ .

b. With what frequency will you have to turn the crank for the maximum current to fully light the bulb? Is this feasible?

FIGURE shows a $4.0$ -cm-diameter loop with resistance $0.10 鈩�$ around a $2.0$ -cm-diameter solenoid. The solenoid is $10$ cm long, has $100$ turns, and carries the current shown in the graph. A positive current is $c w$ when seen from the left. Find the current in the loop at $(a) t = 0.5 s, (b) t = 1.5 s, a n d (c) t = 2.5 s .$

The charger for your electronic devices is a transformer. Suppose a $60 Hz$ outlet voltage of $120 V$ needs to be reduced to a device voltage of $3.0 V$ . The side of the transformer attached to the electronic device has $60 turns$ of wire. How many turns are on the side that plugs into the outlet?

The square loop shown in $F I G U R E P 30.53$ moves into a $0.80 T ALC$ magnetic field at a constant speed of $10 m / s$ .The loop has a resistance of $0.10 惟$ , and it enters the field at $t = 0 s .$

a. Find the induced current in the loop as a function of time. Give your answer as a graph of ii versus $t$ from $t = 0 s$ to $t = 0.020 s .$

b. What is the maximum current? What is the position of the loop when the current is maximum?

See all solutions

Recommended explanations on Physics Textbooks

Electrostatics

Read Explanation

Thermodynamics

Read Explanation

Fundamentals of Physics

Read Explanation

Physical Quantities And Units

Read Explanation

Astrophysics

Read Explanation

Further Mechanics and Thermal Physics

Read Explanation

View all explanations

What do you think about this solution?

We value your feedback to improve our textbook solutions.

Study anywhere. Anytime. Across all devices.