MTG NEET Physics
A particle located in a one-dimensional potential field has its potential energy function as U(x) = a/x^4−b/x^2, where a and b are positive constants. The position of equilibrium x corresponds to
28
Oct
A particle located in a one-dimensional potential field has its potential energy function as U(x) = a/x^4−b/x^2, where a and b are positive constants. The position of equilibrium x corresponds to A particle located in a one-dimensional potential field has its potential energy function as U(x) = a/x^4−b/x^2 where a and b are positive constants. [...]
Figure shows a plot of the conservative force F in a one dimensional field. The plot representing the function corresponding to the potential energy (U) in the field is:
28
Oct
Figure shows a plot of the conservative force F in a one dimensional field. The plot representing the function corresponding to the potential energy (U) in the field is: Figure shows a plot of the conservative force F in a one dimensional field. The plot representing the function corresponding to the potential energy (U) in [...]
The force acting on a body moving along x-axis varies with the position of the particle shown in figure. The body is in stable equilibrium at:
28
Oct
The force acting on a body moving along x-axis varies with the position of the particle shown in figure. The body is in stable equilibrium at: The force acting on a body moving along x-axis varies with the position of the particle shown in figure. The body is in stable equilibrium at: October 28, 2020 [...]
The potential energy of a particle varies with distance x as shown in the graph. The force acting on the particle is zero at:
28
Oct
The potential energy of a particle varies with distance x as shown in the graph. The force acting on the particle is zero at: The potential energy of a particle varies with distance x as shown in the graph. The force acting on the particle is zero at: October 28, 2020 Category: Chapter 6 - [...]
A block of mass m is released from rest at point A. The compression in spring when the speed of block is maximum.
28
Oct
A block of mass m is released from rest at point A. The compression in spring when the speed of block is maximum. A block of mass m is released from rest at point A. The compression in spring when the speed of block is maximum. October 28, 2020 Category: Chapter 6 - Work, Energy [...]
An object falls off a table on the floor. we wish to analyze the situation in term of kinetic and potential energy. In discussing the potential energy of the system, we identify the system as
28
Oct
An object falls off a table on the floor. we wish to analyze the situation in term of kinetic and potential energy. In discussing the potential energy of the system, we identify the system as An object falls off a table on the floor. we wish to analyze the situation in term of kinetic and [...]
The potential function for a conservative force is given by U=k( x + y). Find the work done by the conservative force in moving a particle from the point A(1, 1) to point B (2,3).
28
Oct
The potential function for a conservative force is given by U=k( x + y). Find the work done by the conservative force in moving a particle from the point A(1, 1) to point B (2,3). 1) to point B (2 3% The potential function for a conservative force is given by U=k( x + y). [...]
The potential energy of a particle oscillating on x-axis is given as U = 20 + (x – 2)2. Here, U is in joules and x in metres . Total mechanical energy of the particle is 36 J. Find the mean position kinetic energy of the particle respectively.
28
Oct
The potential energy of a particle oscillating on x-axis is given as U = 20 + (x – 2)2. Here, U is in joules and x in metres . Total mechanical energy of the particle is 36 J. Find the mean position kinetic energy of the particle respectively. The potential energy of a particle oscillating [...]
A block of mass 1 kg is projected with initial velocity (V0) of 10 m/s on a rough inclined surface. The block moves up and come back to its initial position and stops. Find the work done by the friction on the block.
28
Oct
A block of mass 1 kg is projected with initial velocity (V0) of 10 m/s on a rough inclined surface. The block moves up and come back to its initial position and stops. Find the work done by the friction on the block. The work done by a force F→=(−6x^3iˆ) N in displacing a particle [...]
A block of mass 1 kg moves along x axis with variable velocity v=3t^2(m/s) . Find the net work done on the block from t=1s to t=2s.
28
Oct
A block of mass 1 kg moves along x axis with variable velocity v=3t^2(m/s) . Find the net work done on the block from t=1s to t=2s. A block of mass 1 kg moves along x axis with variable velocity v=3t^2(m/s) . Find the net work done on the block from t=1s to t=2s. October [...]