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Work and Energy MDCAT MCQs with Answers

Work and Energy MDCAT MCQs

Welcome to the Work and Energy MDCAT MCQs with Answers. In this post, we have shared Work and Energy Multiple Choice Questions and Answers for PMC MDCAT 2024. Each question in MDCAT Physics offers a chance to enhance your knowledge regarding Work and Energy MCQs in this MDCAT Online Test.

Work and Energy MDCAT MCQs Test Preparations

Work is defined as:
a) The product of force and distance moved in the direction of the force
b) The product of mass and velocity
c) The rate of change of momentum
d) The difference between kinetic and potential energy

Answer
a) The product of force and distance moved in the direction of the force

The SI unit of work is:
a) Joule
b) Newton
c) Watt
d) Meter

Answer
a) Joule

The work done by a force is maximum when:
a) The force is perpendicular to the direction of motion
b) The force is parallel to the direction of motion
c) The force is opposite to the direction of motion
d) The direction of motion is zero

Answer
b) The force is parallel to the direction of motion

The work done when a force acts perpendicular to the direction of displacement is:
a) Zero
b) Equal to the force multiplied by displacement
c) Equal to the displacement divided by force
d) Equal to the force times the displacement squared

Answer
a) Zero

Kinetic energy depends on:
a) Mass and velocity
b) Mass and acceleration
c) Force and distance
d) Displacement and time

Answer
a) Mass and velocity

The work-energy theorem states that:
a) Work done on an object is equal to its change in kinetic energy
b) Work done is equal to the force applied
c) The energy of a system is constant
d) Work done is equal to the potential energy of an object

Answer
a) Work done on an object is equal to its change in kinetic energy

Potential energy depends on:
a) Mass and height
b) Mass and velocity
c) Force and distance
d) Displacement and time

Answer
a) Mass and height

The principle of conservation of energy states that:
a) Energy cannot be created or destroyed, only transformed
b) Energy is always increasing in a closed system
c) Energy is only conserved in isolated systems
d) Energy is always lost to the surroundings

Answer
a) Energy cannot be created or destroyed, only transformed

The work done by a constant force on an object moving in a straight line is equal to:
a) The product of the force and the displacement of the object in the direction of the force
b) The sum of the force and the displacement
c) The difference between the force and the displacement
d) The product of force and the velocity

Answer
a) The product of the force and the displacement of the object in the direction of the force

The energy possessed by an object due to its position is called:
a) Potential energy
b) Kinetic energy
c) Thermal energy
d) Mechanical energy

Answer
a) Potential energy

The unit of power is:
a) Watt
b) Joule
c) Newton
d) Meter

Answer
a) Watt

Power is defined as:
a) The rate at which work is done
b) The total amount of work done
c) The force applied per unit area
d) The energy transferred per unit mass

Answer
a) The rate at which work is done

If a car’s speed is doubled, its kinetic energy becomes:
a) Four times greater
b) Twice as great
c) Half as great
d) The same

Answer
a) Four times greater

Work done against friction results in:
a) The conversion of kinetic energy into thermal energy
b) The increase in potential energy
c) The decrease in the object’s velocity
d) The increase in gravitational potential energy

Answer
a) The conversion of kinetic energy into thermal energy

The work done to lift an object is equal to:
a) The increase in the object’s potential energy
b) The decrease in the object’s kinetic energy
c) The object’s weight times the distance
d) The object’s mass times the velocity

Answer
a) The increase in the object’s potential energy

The energy stored in a stretched or compressed spring is known as:
a) Elastic potential energy
b) Gravitational potential energy
c) Kinetic energy
d) Thermal energy

Answer
a) Elastic potential energy

In a closed system, if no external work is done, the total energy of the system:
a) Remains constant
b) Increases
c) Decreases
d) Becomes zero

Answer
a) Remains constant

The work done on an object is measured in:
a) Joules
b) Newtons
c) Watts
d) Meters

Answer
a) Joules

When a machine is used to lift a load, the work done by the machine is:
a) Equal to the increase in the load’s potential energy
b) Equal to the machine’s power output
c) Less than the work done on the machine
d) The same as the machine’s power output

Answer
a) Equal to the increase in the load’s potential energy

If a person lifts a box and places it on a shelf, the work done is:
a) Equal to the box’s weight multiplied by the height of the shelf
b) Equal to the box’s weight multiplied by the distance moved horizontally
c) Equal to the height of the shelf multiplied by the box’s mass
d) The same as the energy required to move the box horizontally

Answer
a) Equal to the box’s weight multiplied by the height of the shelf

In a frictionless environment, the work done on an object:
a) Results in a change in its kinetic energy
b) Results in a change in its potential energy
c) Is equal to the object’s total energy
d) Is equal to its power output

Answer
a) Results in a change in its kinetic energy

The change in potential energy of an object depends on:
a) The object’s mass, height, and gravitational field strength
b) The object’s speed and distance traveled
c) The object’s volume and density
d) The object’s temperature and pressure

Answer
a) The object’s mass, height, and gravitational field strength

The principle of conservation of mechanical energy states that:
a) Total mechanical energy in a closed system remains constant if only conservative forces are acting
b) Total mechanical energy is always increasing
c) Total mechanical energy is always decreasing
d) Total mechanical energy is zero in a closed system

Answer
a) Total mechanical energy in a closed system remains constant if only conservative forces are acting

The energy required to stretch or compress a spring is known as:
a) Elastic potential energy
b) Kinetic energy
c) Gravitational potential energy
d) Thermal energy

Answer
a) Elastic potential energy

The work done by a variable force can be calculated using:
a) The area under the force vs. displacement graph
b) The force multiplied by the maximum displacement
c) The average force multiplied by the average displacement
d) The total distance traveled

Answer
a) The area under the force vs. displacement graph

The work done to overcome friction is converted into:
a) Thermal energy
b) Kinetic energy
c) Gravitational potential energy
d) Elastic potential energy

Answer
a) Thermal energy

In the context of work and energy, the term “power” refers to:
a) The rate at which work is done
b) The total amount of work done
c) The force applied over a distance
d) The energy required to do work

Answer
a) The rate at which work is done

The energy required to increase the velocity of an object depends on:
a) The object’s mass and the square of its velocity
b) The object’s mass and its acceleration
c) The object’s weight and the height it is lifted
d) The object’s speed and distance traveled

Answer
a) The object’s mass and the square of its velocity

The efficiency of a machine is defined as:
a) The ratio of useful work output to total work input
b) The total work output divided by the power input
c) The ratio of power output to the power input
d) The total work done divided by the distance moved

Answer
a) The ratio of useful work output to total work input

The work done by gravity on an object moving horizontally is:
a) Zero
b) Equal to the object’s weight
c) Equal to the object’s mass times the horizontal distance
d) Equal to the object’s potential energy change

Answer
a) Zero

The work done to move an object against a constant force is:
a) The product of the force and the displacement
b) The sum of the force and the displacement
c) The difference between the force and the displacement
d) The square of the force

Answer
a) The product of the force and the displacement

In a frictionless environment, the total mechanical energy of an object is:
a) The sum of its kinetic and potential energy
b) Equal to its kinetic energy only
c) Equal to its potential energy only
d) The difference between kinetic and potential energy

Answer
a) The sum of its kinetic and potential energy

The energy transferred when a force moves an object through a distance is known as:
a) Work
b) Power
c) Energy
d) Force

Answer
a) Work

The work done to stretch a spring is directly proportional to:
a) The square of the displacement from the equilibrium position
b) The displacement from the equilibrium position
c) The velocity of the spring
d) The time of stretching

Answer
a) The square of the displacement from the equilibrium position

When a machine is used to lift a load, the work done on the machine is:
a) The same as the work done by the machine
b) Less than the work done by the machine
c) More than the work done by the machine
d) Zero

Answer
a) The same as the work done by the machine

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