Chapter 15 – Oscillation and SHM

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Two simple harmonic motion are represented by equations-duplicate-1
05
Nov
Two simple harmonic motion are represented by equations-duplicate-1 Two simple harmonic motion are represented by equations November 5, 2020 Category: Cengage JEE Mains Physics by B.M Sharma , Chapter 15 - Oscillation and SHM ,
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 15 - Oscillation and SHM ,
Tags: Two simple harmonic motion are represented by equations ,
A system of two identical rods (L-shaped) of mass m and length l are resting on a peg P as shown in the figure. IF the system is displaced in its plane by a small angle θ, find the period of oscillations:
28
Oct
A system of two identical rods (L-shaped) of mass m and length l are resting on a peg P as shown in the figure. IF the system is displaced in its plane by a small angle θ, find the period of oscillations: A system of two identical rods (L-shaped) of mass m and length l [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 15 - Oscillation and SHM ,
Tags: A system of two identical rods (L-shaped) of mass m and length l are resting on a peg P as shown in the figure. IF the system is displaced in its plane by a small angle θ , find the period of oscillations: ,
A plank with a small block on top of it is under going vertical SHM. Its period is 2 sec. The minimum amplitude at which the block will separate from plank is :
28
Oct
A plank with a small block on top of it is under going vertical SHM. Its period is 2 sec. The minimum amplitude at which the block will separate from plank is : A plank with a small block on top of it is under going vertical SHM. Its period is 2 sec. The minimum [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 15 - Oscillation and SHM ,
Tags: A plank with a small block on top of it is under going vertical SHM. Its period is 2 sec. The minimum amplitude at which the block will separate from plank is : ,
A graph of the square of the velocity against the square of the acceleration of a given simple harmonic motion is
28
Oct
A graph of the square of the velocity against the square of the acceleration of a given simple harmonic motion is A graph of the square of the velocity against the square of the acceleration of a given simple harmonic motion is October 28, 2020 Category: Cengage JEE Mains Physics by B.M Sharma , Chapter [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 15 - Oscillation and SHM ,
Tags: A graph of the square of the velocity against the square of the acceleration of a given simple harmonic motion is ,
A particle performs SHM with a period T and amplitude a. The mean velocity of the particle over the time interval during which it travels a distance a/2 from the extreme position is
28
Oct
A particle performs SHM with a period T and amplitude a. The mean velocity of the particle over the time interval during which it travels a distance a/2 from the extreme position is A particle performs SHM with a period T and amplitude a. The mean velocity of the particle over the time interval during [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 15 - Oscillation and SHM ,
Tags: A particle performs SHM with a period T and amplitude a. The mean velocity of the particle over the time interval during which it travels a distance a/2 from the extreme position is ,
A small mass executes linear SHM about O with amplitude a and period T. Its displacement from O at time T/8 after passing through O is
28
Oct
A small mass executes linear SHM about O with amplitude a and period T. Its displacement from O at time T/8 after passing through O is A small mass executes linear SHM about O with amplitude a and period T. Its displacement from O at time T/8 after passing through O is October 28, 2020 [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 15 - Oscillation and SHM ,
Tags: A small mass executes linear SHM about O with amplitude a and period T. Its displacement from O at time T/8 after passing through O is ,
A wire is bent an an angle θ. A rod of mass m can slide along the bended wire without friction as shown in Fig. A soap film is maintained in the frame kept in a vertical position and the rod is in equilibrium as shown in the figure. If rod is displaced slightly in vertical direction, then the time period of small oscillation of the rod is
28
Oct
A wire is bent an an angle θ. A rod of mass m can slide along the bended wire without friction as shown in Fig. A soap film is maintained in the frame kept in a vertical position and the rod is in equilibrium as shown in the figure. If rod is displaced slightly in [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 15 - Oscillation and SHM ,
Tags: A particle executing harmonic motion is having velocities v1 and v2 at distances is x1 and x2 from the equilibrium position. The amplitude of the motion is ,
A particle executing harmonic motion is having velocities v1 and v2 at distances is x1 and x2 from the equilibrium position. The amplitude of the motion is
28
Oct
A particle executing harmonic motion is having velocities v1 and v2 at distances is x1 and x2 from the equilibrium position. The amplitude of the motion is A particle executing harmonic motion is having velocities v1 and v2 at distances is x1 and x2 from the equilibrium position. The amplitude of the motion is October [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 15 - Oscillation and SHM ,
Tags: A particle executing harmonic motion is having velocities v1 and v2 at distances is x1 and x2 from the equilibrium position. The amplitude of the motion is ,
A physical pendulum is positioned so that its center of gravity is above the suspension point. When the pendulum is released it passes the point of stable equilibrium with an angular velocity ω. The period of small oscillations of the pendulum is
28
Oct
A physical pendulum is positioned so that its center of gravity is above the suspension point. When the pendulum is released it passes the point of stable equilibrium with an angular velocity ω. The period of small oscillations of the pendulum is A metre stick swinging in vertical plane about a fixed horizontal axis passing [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 15 - Oscillation and SHM ,
Tags: A metre stick swinging in vertical plane about a fixed horizontal axis passing through its one end undergoes small oscillation of frequency f0. If the bottom half of the stick were but off , then its new frequency of small oscillation would become. ,
A metre stick swinging in vertical plane about a fixed horizontal axis passing through its one end undergoes small oscillation of frequency f0. If the bottom half of the stick were but off, then its new frequency of small oscillation would become.
28
Oct
A metre stick swinging in vertical plane about a fixed horizontal axis passing through its one end undergoes small oscillation of frequency f0. If the bottom half of the stick were but off, then its new frequency of small oscillation would become. A metre stick swinging in vertical plane about a fixed horizontal axis passing [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 15 - Oscillation and SHM ,
Tags: A metre stick swinging in vertical plane about a fixed horizontal axis passing through its one end undergoes small oscillation of frequency f0. If the bottom half of the stick were but off , then its new frequency of small oscillation would become. ,