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Potential energy is considered one the most difficult concept.
Potential energy curve is considered one of the most asked concept.
28 Questions around this concept.
A spring of force constant 800 N/m has an extension of 5 cm. The work done in extending it from 5 cm to 15 cm is
A block of mass ‘ m ‘ is attached to a spring in natural length of spring constant ‘ k ‘ . The other end A of the spring is moved with a constant velocity v away from the block . Find the maximum extension in the spring.
A spring of spring constant is stretched initially by 5 cm from the unstretched position.Then the work (in Nm) required to stretch it further by another 5 cm is :
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Definition-
Potential energy is defined only for conservative forces.
In the space occupied by conservative forces, every point is associated with certain energy which is called the energy of
position or potential energy.
Change in potential energy -
Change in potential energy between any two points is defined as the work done by the associated conservative force
in displacing the particle between these two points without any change in kinetic energy.
......(1)
Where,
We can define a unique value of potential energy only by assigning some arbitrary value to a fixed point called the reference
point.
Whenever and wherever possible, we take the reference point at infinite and assume potential energy to be zero there.
i.e; if take and then from equation (1)
In the case of conservative force (field) potential energy is equal to negative of work done in shifting the body from
reference position to given position.
Types of potential energy-
Potential energy generally is of three types:
Elastic potential energy, Electric potential energy, and Gravitational potential energy, etc.
Potential Energy stored when particle displaced against gravity
Where
Potential Energy stored in the spring-
Restoring force = (or spring force)
Where k is called spring constant.
Work done by restoring the force
Potential Energy
Where
3. The relation between Conservative Force and Change in potential energy -
For only conservative fields F equals the Negative of the rate of change of potential energy with respect to position.
The three-dimensional formula for potential energy-
For only conservative fields F equals the negative gradient of the potential energy.
Where is del operator
And,
So,
Where =Partial derivative of U w.r.t. x (keeping y and z constant)
=Partial derivative of U w.r.t. y (keeping x and z constant)
=Partial derivative of U w.r.t. Z (keeping x and y constant)
Potential energy curve
A graph plotted between the potential energy of a particle and its displacement from the center of force is called potential energy curve.
The figure shows a graph of the potential energy function U(x) for one-dimensional motion. As we know that negative gradient of the potential energy gives force.
Nature of force-
Attractive force -
If is positive (means on increasing x, U is increasing)
Then F is negative in direction i.e. force is attractive in nature.
In the graph, this is represented in region BC.
Repulsive force-
If is negative (means on increasing x, U is decreasing)
Then F is positive in direction i.e. force is repulsive in nature.
In graph, this is represented in the region AB.
Zero force
If is zero (means on increasing x, U is not changing ) then F is zero
Point B, C, and D represent the point of zero force.
These points can be termed as a position of equilibrium.
Types of equilibrium
If the net force acting on a particle is zero, it is said to be in equilibrium.
Means For equilibrium
Equilibrium of particle can be of three types-
When a particle is displaced slightly from a position, then a force acting on it brings it back to the initial position, it is said to be in the stable equilibrium position.
is positive.
i.e; rate of change of is positive
Potential energy is minimum.
A marble placed at the bottom of a hemispherical bowl.
Unstable equilibrium
When a particle is displaced slightly from a position, then a force acting on it tries to displace the particle further away from the equilibrium position, it is said to be in unstable equilibrium.
is negative
i.e; rate of change of is negative
Potential energy is maximum.
A marble balanced on top of a hemispherical bowl.
Neutral equilibrium
When a particle is slightly displaced from a position then it does not experience any force acting on it and continues to be in equilibrium in the displaced position, it is said to be in neutral equilibrium.
i.e; the rate of change of is zero.
Potential energy is constant.
A marble placed on a horizontal table.
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