imported>Patrick: Created page with '''Helena Dedic'' '''Beware: Many of the solutions to these exercises use $g = 10 m/s^2$ !'''
==Exercise 1== A 60-kg skier…'

2011-07-28T19:38:55Z

Created page with '''Helena Dedic'' '''Beware: Many of the solutions to these exercises use <math>g = 10 m/s^2</math> !''' ==Exercise 1== A 60-kg skier…'

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''Helena Dedic''

'''Beware: Many of the solutions to these exercises use <math>g = 10 m/s^2</math> !'''
 

==Exercise 1==

A 60-kg skier slides down 200 m along a 25° slope. What is the work done by

(a) gravity; and

(b) by the force of friction which is 20 N? 

*[[Work EX 1|SOLUTION EX 1]] 

==Exercise 2==

An x-component of a force <math>F</math> acting on a particle varies with position as shown. Find the work done on the particle as it moves from

(a) x = -4 to -2 m

(b) x = -4 to 0 m

(c) x = 0 to 4 m

(d) x = -4 to 4 m

(e) x = 0 to -2 m 
[[image:Helena_Work_Ex_2.png|TOP]] 

*[[Work EX 2|SOLUTION EX 2]] 

==Exercise 3==

A 1-kg mass is attached to a spring (k = 200 N/m) and allowed to fall. Let y = 0 at the point where the mass is attached to the spring before the fall.

(a) Calculate the work done by each force when the mass falls from y = 1 cm to y = 5 cm.

(b) Calculate the total work done on the mass under the same displacement.

(c) Starting from y = 0, determine how far the mass would have to fall so that the total work done would be zero. 
[[image:Helena_Work_Ex_3.png|TOP]] 

*[[Work EX 3|SOLUTION EX 3]] 

==Exercise 4==

A 0.5-kg block is attached to a spring (k = 100 N/m) and slides 5.2 cm down an incline that is 37° to the horizontal. The coefficient of kinetic friction is 0.1.

(a) What work done is done on the block by gravity?

(b) What work done is done on the block by friction?

(c) What work done is done on the block by the spring?

(d) What is the total work done by the three forces? 
[[image:Helena_Work_Ex_4.png|TOP]] 

*[[Work EX 4|SOLUTION EX 4]] 

==Exercise 5==

A 500 g particle moves in a circle of radius 0.5 m with constant angular velocity once every 2 seconds.

(a) What is the speed of the particle?

(b) What is the kinetic energy of the particle?

(c) What is the force acting on the particle?

(d) What is the work done on the particle in one revolution? 

*[[Work EX 5|SOLUTION EX 5]] 

==Exercise 6==

Can work be done

(a) by the force of static friction, or

(b) by the net force acting on an object in a uniform circular motion (this force is often called a centripetal force)? 

*[[Work EX 6|SOLUTION EX 6]] 

==Exercise 7==

A 1.5-kg block is moved at constant speed in a vertical plane from position 1 to position 3 via several routes shown in the figure. Find the work by gravity on the block for each segment indicated, where <math>W_{ab}</math> means work done from <math>a</math> to <math>b</math>:

(a) <math>W_{13}</math>

(b) <math>W_{12} + W_{23}</math>

(c) <math>W_{14} + W_{45}</math>

(d) <math>W_{14} + W_{45} + W_{53}</math> 
[[image:Helena_Work_Ex_7.png|TOP]] 

*[[Work EX 7|SOLUTION EX 7]] 

==Exercise 8==

A 2-kg mass slides 1 m down an incline that is 37° to the horizontal, then falls 1 m to the floor.

(a) Calculate the amount of work done by gravity on the mass while it slides the incline.

(b) Calculate the amount of work done by gravity on the mass while it is in free fall.

(c) What is the total work done by gravity? 
[[image:Helena_Work_Ex_8.png|TOP]] 

*[[Work EX 8|SOLUTION EX 8]] 

==Exercise 9==

If the net work done on a particle is zero, what can you conclude about the following:

(a) its acceleration

(b) its velocity 

*[[Work EX 9|SOLUTION EX 9]]

Exercises on Work - Revision history

imported>Patrick: Created page with '''Helena Dedic'' '''Beware: Many of the solutions to these exercises use g = 10 m/s^2 !''' ==Exercise 1== A 60-kg skier…'

imported>Patrick: Created page with '''Helena Dedic'' '''Beware: Many of the solutions to these exercises use $g = 10 m/s^2$ !'''
==Exercise 1== A 60-kg skier…'