Register
A 1756 kg car comes to a stop in 2 seconds from a speed of 45 m/s. What was the braking force of the car?
135k views
0 votes
A 1756 kg car comes to a stop in 2 seconds from a speed of 45 m/s. What was the braking force of the car?

User Shuwei
by
5.5k points

2 Answers

4 votes

Step-by-step explanation:

is this what you were looking for?

A 1756 kg car comes to a stop in 2 seconds from a speed of 45 m/s. What was the braking-example-1
User Milot
by
5.8k points
1 vote

The braking force of the car is 39510 N

Explanation

Given:

Mass of the car = 1756 kg

Time s= seconds

Initial velocity u = 45 m/s

To find:

The braking force of the car=?

Solution:

The equation of motion is v=u+at

Where

u = initial veloctity

v = final velocity

a = acceleration

t = time

let the final velocity v=0 m/s

substituting the values we get

v=u+at


0=45+(a)(2)


-45=2a


a=(-45)/(2)


a=-22.5m/s

Now according to Newton's second law of the braking force can be calculated as

|F|=|m| |a|

F=|1756| |-22.5|

F= 1756*22.5

F=39510 N

User Ib
by
5.5k points
Ask a Question
Welcome to QAmmunity.org, where you can ask questions and receive answers from other members of our community.

6.3m questions

8.4m answers

Other Questions

A ball is dropped from rest at height of 50m above the ground (a) What is its speed just before it hits the ground (b) How long does it take to rech the ground.
The___ is composed of Earth's crust and solid upper mantle A. Inner core B outer core C lithosphere D asthenosphere
What is one similarity and one difference between infrasound and ultrasound?
What healing action is taking place when a wound becomes inflamed??
Taro stated that when someone hits a golf ball with a club, the amount of energy the ball has changes, the amount of energy that the club has changes, and the total energy of the system that includes the
Link Copied!