Part 1

Sahay Sir > Question Answers > Cengage NEET by C.P Singh > Part 1
A disc of radius R and mass M is pivoted at the rim and it set for small oscillations. If simple pendulum has to have the same period as that of the disc, the length of the simple pendulum should be
30
Oct
A disc of radius R and mass M is pivoted at the rim and it set for small oscillations. If simple pendulum has to have the same period as that of the disc, the length of the simple pendulum should be A disc of radius R and mass M is pivoted at the rim and [...]
Posted in: Cengage NEET by C.P Singh , Chapter 13 - Simple Harmonic Motion , Part 1 ,
Tags: A disc of radius R and mass M is pivoted at the rim and it set for small oscillations. If simple pendulum has to have the same period as that of the disc , the length of the simple pendulum should be ,
Two pendulum of lengths 1m and 16m are in phase at the mean position at a certain instant of time. If T is the time period of the shorter pendulum, then the minimum time after which they will again be in phase is
30
Oct
Two pendulum of lengths 1m and 16m are in phase at the mean position at a certain instant of time. If T is the time period of the shorter pendulum, then the minimum time after which they will again be in phase is then the minimum time after which they will again be in phase [...]
Posted in: Cengage NEET by C.P Singh , Chapter 13 - Simple Harmonic Motion , Part 1 ,
Tags: then the minimum time after which they will again be in phase is , Two pendulum of lengths 1m and 16m are in phase at the mean position at a certain instant of time. If T is the time period of the shorter pendulum ,
Two particles execute SHM of the same time period along the same straight lines. They cross each other at the mean position while going in opposite directions. Their phase difference is
30
Oct
Two particles execute SHM of the same time period along the same straight lines. They cross each other at the mean position while going in opposite directions. Their phase difference is Two particles execute SHM of the same time period along the same straight lines. They cross each other at the mean position while going [...]
Posted in: Cengage NEET by C.P Singh , Chapter 13 - Simple Harmonic Motion , Part 1 ,
Tags: Two particles execute SHM of the same time period along the same straight lines. They cross each other at the mean position while going in opposite directions. Their phase difference is ,
Two simple pendulums whose lengths are 100cm and 121cm are suspended side by side. their bobs are pulled together and then released. After how many minimum oscillation of the longer pendulum will the two be in phase again
30
Oct
Two simple pendulums whose lengths are 100cm and 121cm are suspended side by side. their bobs are pulled together and then released. After how many minimum oscillation of the longer pendulum will the two be in phase again Two particles A and B execute simple harmonic motions of periods T and 5T / 4. They [...]
Posted in: Cengage NEET by C.P Singh , Chapter 13 - Simple Harmonic Motion , Part 1 ,
Tags: Two particles A and B execute simple harmonic motions of periods T and 5T / 4. They start from mean position. The phase difference between them when the particle A complete one oscillation will be: ,
Two particles A and B execute simple harmonic motions of periods T and 5T / 4. They start from mean position. The phase difference between them when the particle A complete one oscillation will be:
30
Oct
Two particles A and B execute simple harmonic motions of periods T and 5T / 4. They start from mean position. The phase difference between them when the particle A complete one oscillation will be: Two particles A and B execute simple harmonic motions of periods T and 5T / 4. They start from mean [...]
Posted in: Cengage NEET by C.P Singh , Chapter 13 - Simple Harmonic Motion , Part 1 ,
Tags: Two particles A and B execute simple harmonic motions of periods T and 5T / 4. They start from mean position. The phase difference between them when the particle A complete one oscillation will be: ,
Electrons in an oscilloscope are deflected by two mutually perpendicular oscillating electric field such that at any time the displacement due to them are given by x=Acosωt, y=Asin(ωt+π/6). Then the path of the electron is
30
Oct
Electrons in an oscilloscope are deflected by two mutually perpendicular oscillating electric field such that at any time the displacement due to them are given by x=Acosωt, y=Asin(ωt+π/6). Then the path of the electron is Electrons in an oscilloscope are deflected by two mutually perpendicular oscillating electric field such that at any time the displacement [...]
Posted in: Cengage NEET by C.P Singh , Chapter 13 - Simple Harmonic Motion , Part 1 ,
Tags: Electrons in an oscilloscope are deflected by two mutually perpendicular oscillating electric field such that at any time the displacement due to them are given by x=Acosωt , y=Asin(ωt+π/6). Then the path of the electron is ,
The displacement of a particle is given by r = A( i cosωt+ j sinωt). The motion of the particle is :
30
Oct
The displacement of a particle is given by r = A( i cosωt+ j sinωt). The motion of the particle is : The displacement of a particle is given by r = A( i cosωt+ j sinωt). The motion of the particle is : October 30, 2020 Category: Cengage NEET by C.P Singh , Chapter [...]
Posted in: Cengage NEET by C.P Singh , Chapter 13 - Simple Harmonic Motion , Part 1 ,
Tags: The displacement of a particle is given by r = A( i cosωt+ j sinωt). The motion of the particle is : ,
A body executes SHM of period 3s under the influence of one force, and SHM of period 4s under the influence of a second force. When both the forces act simultaneously in the same direction, the period of oscillation will be
30
Oct
A body executes SHM of period 3s under the influence of one force, and SHM of period 4s under the influence of a second force. When both the forces act simultaneously in the same direction, the period of oscillation will be A body executes SHM of period 3s under the influence of one force and [...]
Posted in: Cengage NEET by C.P Singh , Chapter 13 - Simple Harmonic Motion , Part 1 ,
Tags: A body executes SHM of period 3s under the influence of one force , and SHM of period 4s under the influence of a second force. When both the forces act simultaneously in the same direction , the period of oscillation will be ,
The minimum phase difference between the two simple harmonic oscillations y1=1/2sinωt+(3–√/2)cosωt and y2=sinωt+cosωt is
30
Oct
The minimum phase difference between the two simple harmonic oscillations y1=1/2sinωt+(3–√/2)cosωt and y2=sinωt+cosωt is The minimum phase difference between the two simple harmonic oscillations y1=1/2sinωt+(3–√/2)cosωt and y2=sinωt+cosωt is October 30, 2020 Category: Cengage NEET by C.P Singh , Chapter 13 - Simple Harmonic Motion , Part 1 ,
Posted in: Cengage NEET by C.P Singh , Chapter 13 - Simple Harmonic Motion , Part 1 ,
Tags: The minimum phase difference between the two simple harmonic oscillations y1=1/2sinωt+(3–√/2)cosωt and y2=sinωt+cosωt is ,
The ratio of the amplitude of the simple pendulum oscillation gives by y1 = A sin ωt and y2 = 2/A ​ sin ωt + 2/A ​cos ωt is
30
Oct
The ratio of the amplitude of the simple pendulum oscillation gives by y1 = A sin ωt and y2 = 2/A ​ sin ωt + 2/A ​cos ωt is The ratio of the amplitude of the simple pendulum oscillation gives by y1 = A sin ωt and y2 = 2/A ​ sin ωt + 2/A [...]
Posted in: Cengage NEET by C.P Singh , Chapter 13 - Simple Harmonic Motion , Part 1 ,
Tags: The ratio of the amplitude of the simple pendulum oscillation gives by y1 = A sin ωt and y2 = 2/A ​ sin ωt + 2/A ​cos ωt is ,