MTG NEET Physics

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The amplitude of a damped oscillator becomes (4/1)rd in 4s. If its amplitude after 8 s in n/1 times the original amplitude, the value of n is
08
Nov
The amplitude of a damped oscillator becomes (4/1)rd in 4s. If its amplitude after 8 s in n/1 times the original amplitude, the value of n is The amplitude of a damped oscillator becomes (4/1)rd in 4s. If its amplitude after 8 s in n/1 times the original amplitude the value of n is November [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: The amplitude of a damped oscillator becomes (4/1)rd in 4s. If its amplitude after 8 s in n/1 times the original amplitude , the value of n is ,
When an oscillator completes 100 oscillations its amplitude reduced to 1/3 of initial values. What will be amplitude, when it completes 200 oscillations ?
08
Nov
When an oscillator completes 100 oscillations its amplitude reduced to 1/3 of initial values. What will be amplitude, when it completes 200 oscillations ? When an oscillator completes 100 oscillations its amplitude reduced to 1/3 of initial values. What will be amplitude when it completes 200 oscillations ? November 8, 2020 Category: Chapter 11 - [...]
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Tags: When an oscillator completes 100 oscillations its amplitude reduced to 1/3 of initial values. What will be amplitude , when it completes 200 oscillations ? ,
Time period of is simple pendulum of length L is T1 and the point time period of a uniform rod of the same length L pivotal about one end and oscillating in vertical plane is T2. Amplitude of oscillation in both the cased is small. The T1/T2 is:
08
Nov
Time period of is simple pendulum of length L is T1 and the point time period of a uniform rod of the same length L pivotal about one end and oscillating in vertical plane is T2. Amplitude of oscillation in both the cased is small. The T1/T2 is: A simple pendulum has a time period [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: A simple pendulum has a time period T1 when on the earth's surface and T2 when taken to a height R above the earth's surface , where R is the radius of the earth. The value of T1 /T2 ​ is: ,
A simple pendulum has a length l cm mass of bob is m gram. The bob is given a charge + q coulomb. The pendulum is suspended between the plates of a charged parallel plates capacitor. If E is the electric field intensity between the plates as shown in figure, the time period t of the oscillation is
08
Nov
A simple pendulum has a length l cm mass of bob is m gram. The bob is given a charge + q coulomb. The pendulum is suspended between the plates of a charged parallel plates capacitor. If E is the electric field intensity between the plates as shown in figure, the time period t of [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: A simple pendulum has a time period T1 when on the earth's surface and T2 when taken to a height R above the earth's surface , where R is the radius of the earth. The value of T1 /T2 ​ is: ,
A man measures the period of a simple pendulum inside a stationary lift and finds it to be T sec. if the lift accelerates upwards with an acceleration g/4, then the period of the pendulum will be
08
Nov
A man measures the period of a simple pendulum inside a stationary lift and finds it to be T sec. if the lift accelerates upwards with an acceleration g/4, then the period of the pendulum will be A man measures the period of a simple pendulum inside a stationary lift and finds it to be [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: A man measures the period of a simple pendulum inside a stationary lift and finds it to be T sec. if the lift accelerates upwards with an acceleration g/4 , then the period of the pendulum will be ,
A simple pendulum has a time period T1 ​when on the earth’s surface and T2 when taken to a height R above the earth’s surface, where R is the radius of the earth. The value of T1 /T2 ​ is:
08
Nov
A simple pendulum has a time period T1 ​when on the earth’s surface and T2 when taken to a height R above the earth’s surface, where R is the radius of the earth. The value of T1 /T2 ​ is: A simple pendulum has a time period T1 when on the earth's surface and T2 [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: A simple pendulum has a time period T1 when on the earth's surface and T2 when taken to a height R above the earth's surface , where R is the radius of the earth. The value of T1 /T2 ​ is: ,
A trolley moves in horizontal direction with acceleration a. A A simple pendulum of length l is suspended from the roof of the trolley. The time period of the pendulum will be
08
Nov
A trolley moves in horizontal direction with acceleration a. A A simple pendulum of length l is suspended from the roof of the trolley. The time period of the pendulum will be A trolley moves in horizontal direction with acceleration a. A A simple pendulum of length l is suspended from the roof of the [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: A trolley moves in horizontal direction with acceleration a. A A simple pendulum of length l is suspended from the roof of the trolley. The time period of the pendulum will be ,
A mass of 4kg suspended from a spring of force constant 800 Nm^−1 executes simple harmonic oscillations. If the total energy of the oscillator is 4J, the maximum acceleration (in ms^−2) of the mass is
08
Nov
A mass of 4kg suspended from a spring of force constant 800 Nm^−1 executes simple harmonic oscillations. If the total energy of the oscillator is 4J, the maximum acceleration (in ms^−2) of the mass is A mass of 4kg suspended from a spring of force constant 800 Nm^−1 executes simple harmonic oscillations. If the total [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: A mass of 4kg suspended from a spring of force constant 800 Nm^−1 executes simple harmonic oscillations. If the total energy of the oscillator is 4J , the maximum acceleration (in ms^−2) of the mass is ,
A body of mass 4.9 kg hangs from a spring and oscillates with a period 0.5s. On the removal of the body, the spring is shortened by (Take g = 10ms^−2 ,π^2 = 10)
08
Nov
A body of mass 4.9 kg hangs from a spring and oscillates with a period 0.5s. On the removal of the body, the spring is shortened by (Take g = 10ms^−2 ,π^2 = 10) A body of mass 4.9 kg hangs from a spring and oscillates with a period 0.5s. On the removal of the [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: A body of mass 4.9 kg hangs from a spring and oscillates with a period 0.5s. On the removal of the body , the spring is shortened by (Take g = 10ms^−2 , π^2 = 10) ,
A metal wire of length L1 ​and area of cross-section A is attached to a rigid support. Another metal wire of length L2 ​and of the same cross-sectional area is attached to the free end of the first wire. A body of mass M is then suspended from the free end of the second wire. If Y1 ​and Y2 ​are Young’s modules of the wires respectively, the effective force constant of the system of two wires is:
08
Nov
A metal wire of length L1 ​and area of cross-section A is attached to a rigid support. Another metal wire of length L2 ​and of the same cross-sectional area is attached to the free end of the first wire. A body of mass M is then suspended from the free end of the second wire. [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: An electric motor of mass 40 kg is mounted on four vertical springs each having constant 4000 Nm^-1. The period with which the motor vibrates vertically is ,