A body of mass M was slowly hauled up a ...

A body of mass M was slowly hauled up a rough hill by a force F which at each point was directed along a tangent to the hill. Work done by the force

(a) Is independent of the shape of trajectory

(b) Depends upon the vertical component of displacement but is independent of horizontal component

(d) Does not depend upon the coefficient of friction

Text Solution

Verified by Experts

The correct Answer is:

A, C

If the body slips over a rough surface such that normal reaction of the surface has to balance only the normal component of weight of the body, then the energy lost against friction depends only upon the horizontal component of displacement and is equal to `mumgx`. It does not depend upon the shape of the surface.
If the vertical component of displacement of the body is equal to y, increase in its gravitational potential energy will be equal to `mgy`.
Hence, total work done by the force will be equal to `mumgx+mgy`.
Hence, options (a) and (b) are correct.

Topper's Solved these Questions

WORK, POWER & ENERGY
CENGAGE PHYSICS|Exercise Linked Comprehension|55 Videos
WORK, POWER & ENERGY
CENGAGE PHYSICS|Exercise Integer|14 Videos
WORK, POWER & ENERGY
CENGAGE PHYSICS|Exercise Single Correct|100 Videos
VECTORS
CENGAGE PHYSICS|Exercise Exercise Multiple Correct|5 Videos

Similar Questions

Explore conceptually related problems

A body of mass m was slowly hauled up the hill (figure) by a force F which at each point was directed along a tangent to the trajectory. Find the work performed by this force, if the height of the hill is h, the length of its base l, and the coefficient of friction k.

A body of mass m was slowly pulled up the hill by a force F which at each point was directed along the tangent of the trajectory. All surfaces are smooth. Find the work done by this force

A body of mass m was slowly hauled up the hill as shown in the fig. by a force F which at each point was directed along a tangent to the trajectory. Find the work performed by this force, if the height of the hill is h, the length of its base is I and the coefficient ot friction is mu . .

A body of mass m was slowly pulled up the hill by a force F which at each point was directed along the tangent of the trajectory. All surfaces aresmooth. Find the work performed by this force.

A body of mass m is slowly hauled up a rough hill as shown in fig by a force F which acts tangential to the trajectory at each point. Find the work performed by the force, if the height of hill is h, the length of its base l and coefficient of friction between the body and hill surface is m. What is the work done if body is moved along some alternative path shown by the dotted line, friction coefficient being same.

A block of mass m is slowly carried on a inclined plane by a force F which always acts along the tangent to the plane. If the co-efficient of friction between the block and incline be mu , then work done by force of friction while carrying block from bottom of the plane to the top will be :

A small block of mass m os takes slowly up a fixed hemisphere from P to Q and then slowly down along its surface from Q to S by force F , which at each point of the surface, is tangential to the surface. If the coefficient of friction is mu , then the work performed by the force F in taking the block from P to S along the hemispherical surface of radius R is :

A body, acted upon by a force off 50N is displaced through a distance 10 meter in a direction making and angle to 60^(@) with the force. The work done by the force be

A block of mass m is taken from A to B under the action of a constant force F. Work done by this force is

A block of mass m is pulled slowly by a minimum constant force on a rough ( mu ) horizontal surface through a distance x. Find work done by force F.

CENGAGE PHYSICS-WORK, POWER & ENERGY-Multiple Correct

Mark the correct statement(s).
Text Solution
|
Mark the correct statement(s).
Text Solution
|
Select the correct option(s).
Text Solution
|
When two blocks connected by a spring move towards each other under mu...
Text Solution
|
When a bullet is fired from a gun
Text Solution
|
A vehicle is driven along a straight horizontal track by a motor which...
Text Solution
|
A block hangs freely from the end of a spring. A boy then slowly pushe...
Text Solution
|
A charged particle X moves directly towards another charged particle Y...
Text Solution
|
The potential energy varphi, in joule, of a particle of mass 1kg, movi...
Text Solution
|
A body of mass M was slowly hauled up a rough hill by a force F which ...
Text Solution
|
A block is suspended by an ideal spring of force constant k. If the bl...
Text Solution
|
A horizontal plane supports a plank with a block placed on it. A light...
Text Solution
|
A particle is projected from a point at an angle with the horizontal a...
Text Solution
|
In which of the following cases no work is done by the force?
Text Solution
|
A man of mass m is standing on a stationary flat car of mass M. The ca...
Text Solution
|
The kinetic energy of a particle continuously icreses with time
Text Solution
|
The potential energy curve for interaction between two molecules is sh...
Text Solution
|
A particle is taken from point A to point B under the influence of a f...
Text Solution
|
Which of the following statements is/are correct about work?
Text Solution
|
A body of mass 1kg is taken from infinity to a point P. When the body ...
Text Solution
|