Find study content
Learning Materials

Discover learning materials by subject, university or textbook.

Explanations

Textbooks

Exams
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

EXAM TYPES

GCSE

IGCSE

AS

A Level

International A Level

University Admissions Tests

GCSE SUBJECTS

GCSE 1

GCSE 2

GCSE 3

GCSE 4

GCSE 5

SOME-TEXT

IGCSE SUBJECTS

IGCSE 1

AS SUBJECTS

AS 1

A Level SUBJECTS

A Level 1

International A Level SUBJECTS

International A Level 1

University Admissions Tests SUBJECTS

University Admissions Tests 1
Features
Features

Discover all of these amazing features with a free account.

Flashcards

Vaia AI

Notes

Study Plans

Study Sets
What’s 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.
Resources
Discover

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

Find a job

Find a degree

Student Deals

Magazine

Mobile App
Featured

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

Job Board
The largest student job board with the most exciting opportunities.

Vaia Deals
Verified student deals from top brands.

Our App
Discover our mobile app to take your studies anywhere.

Go to App

Learning Materials

Features

Discover

Chapter 1: Q45P (page 41)

A baseball has a mass of 0.155 kg . A professional pitcher throws a baseball 90 mill/h ,which is 4om/s.What is the magnitude of the momentum of the pitched baseball?

Short Answer

Expert verified

Answer

The magnitude of the momentum of the pitched baseball is 6.2 kg m/s.

Step by step solution

01

Identification of the given data

The given data can be listed below as

The mass of the baseball is 0.155 kg.
The velocity of the baseball is 40m/s .

02

Step 2: Significance of Newton’s third law for the baseball

This law states that if a particular object exerts a force on a different object, the other object always exerts a force equal in magnitude but opposite in direction.

The equation of the momentum gives the magnitude of the momentum.

03

Determination of the magnitude of the momentum

From Newton’s third law, the equation of momentum for the baseball is expressed as:

p = m . v

Here, p is the magnitude of the momentum, and m and v are the mass and the velocity of the baseball that are 0.155kg and 40m/s , respectively.

Substituting the values in the above equation, we get:

$p = 0.155 k g \times 40 m / s p = 0.155 \times 40 k g . m / s p = 6.2 k g . m / s$

Thus, the magnitude of the momentum of the pitched baseball is 6.2kg.m/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.

Start your free trial

Over 30 million students worldwide already upgrade their learning with Vaia!

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

Question: In the periodic table on the inside front cover of this book (or one you find on the internet), for each element there is given the "atomic number," the number of protons or electrons in an atom, and the "atomic mass," which is essentially the number of nucleons, protons plus neutrons, in the nucleus, averaged over the various isotopes of the element, which differ in the number of neutrons. Make a graph of the number of neutrons vs. the number of protons in the elements. You needn't graph every element, just enough to see the trend. What do you observe about the data? (This reflects the need for more neutrons in proton-rich nuclei in order to prevent the electric repulsion of the protons of each other from destroying the nucleus.)

Which of the following are vectors?

$(a) \vec{r} / 2 (b) | \vec{r} | / 2 (c) < r_{x}, r_{y}, r_{z} > (d) 5 \cdot \vec{r}$

(a) Powerful sports car can go from zero to 25m/s (about 60mi/h) in 5 s. (1) What is the magnitude of average acceleration? (2) How does this compare with the acceleration of a rock falling near the Earth’s surface? (b) Suppose the position of an object at time tis $(3 + 5 t, 4 t^{2}, 2 t - 6 t^{3})$ . (1) what is the instantaneous velocity at time t? (2) What is the instantaneous acceleration at time t? (3) What is the instantaneous velocity at time t=0? (4) What is the instantaneous acceleration at time t=0?

(a) Powerful sports car can go from zero to 25 m/s (about 60mi/h) in 5 s. (1) What is the magnitude of average acceleration? (2) How does this compare with the acceleration of a rock falling near the Earth’s surface? (b) Suppose the position of an object at time t is $< 3 + 5 t, 4 t^{2}, 2 t - 6 t^{3} >$ . (1) what is the instantaneous velocity at time t? (2) What is the instantaneous acceleration at time t? (3) What is the instantaneous velocity at time t=0? (4) What is the instantaneous acceleration at time t=0?

A proton is located at $< 3 \times 10^{- 10}, - 3 \times 10^{- 10}, 8 \times 10^{- 10} > m$ .

(a)What is $\vec{r}$ , the vector from the origin to the location of the proton?

(b)What is $| \vec{r} |$ ?

(c)What is $\hat{r}$ , the unit vector in the direction of $\vec{r}$ ?

See all solutions

Recommended explanations on Physics Textbooks

Force

Read Explanation

Magnetism and Electromagnetic Induction

Read Explanation

Solid State Physics

Read Explanation

Translational Dynamics

Read Explanation

Wave Optics

Read Explanation

Waves 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.

Sign-up for free