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One – fourth of a sphere of radius R is removed as shown in figure. An electric E exists parallel to the xy plane . Find the flux through the remaining curved part.
31
Oct
One – fourth of a sphere of radius R is removed as shown in figure. An electric E exists parallel to the xy plane . Find the flux through the remaining curved part. One - fourth of a sphere of radius R is removed as shown in figure. An electric E exists parallel to the [...]
In Column 1 equations describing the motion of a particle are given and in Column 2 possible nature of the motions. Match the entries of Column 1 with the entries of Column 2.
31
Oct
In Column 1 equations describing the motion of a particle are given and in Column 2 possible nature of the motions. Match the entries of Column 1 with the entries of Column 2. In Column 1 equations describing the motion of a particle are given and in Column 2 possible nature of the motions. Match [...]
A tuning fork and sonometer give 5 beats per second, when the length of the wire is 1 m and 1.05 m, the frequency of the fork is.
31
Oct
A tuning fork and sonometer give 5 beats per second, when the length of the wire is 1 m and 1.05 m, the frequency of the fork is. A tuning fork and sonometer give 5 beats per second the frequency of the fork is. when the length of the wire is 1 m and 1.05 [...]
A column of air at 51^∘C and a tuning fork produce 4 beats per second when sounded together. As the temperature of the air column is decreased, the number of beats per tends to decrease and when the temperature is 16^∘C the two produce 1 beat per second. Find the frequency of the tuning fork.
31
Oct
A column of air at 51^∘C and a tuning fork produce 4 beats per second when sounded together. As the temperature of the air column is decreased, the number of beats per tends to decrease and when the temperature is 16^∘C the two produce 1 beat per second. Find the frequency of the tuning fork. [...]
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A column of air at 51^∘C and a tuning fork produce 4 beats per second when sounded together. As the temperature of the air column is decreased ,
the number of beats per tends to decrease and when the temperature is 16^∘C the two produce 1 beat per second. Find the frequency of the tuning fork. ,
In simple harmonic motion, match the following graphs :
31
Oct
In simple harmonic motion, match the following graphs : In simple harmonic motion match the following graphs : October 31, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
In the column 1, a system is described in each option and corresponding time period is given in the column 2. Suitably match them.
31
Oct
In the column 1, a system is described in each option and corresponding time period is given in the column 2. Suitably match them. a system is described in each option and corresponding time period is given in the column 2. Suitably match them. In the column 1 October 31, 2020 Category: Uncategorised (JEE Advanced [...]
The fundamental frequency of a vibrating organ pipe is 200Hz.
31
Oct
The fundamental frequency of a vibrating organ pipe is 200Hz. The fundamental frequency of a vibrating organ pipe is 200Hz. October 31, 2020 Category: Cengage NEET by C.P Singh , Chapter 17 - Sound Waves , Part 1 ,
A simple harmonic oscillator consists of a block attached to a spring with k = 200 N/m. The block slides on a frictionless horizontal surface, with equilibrium point x = 0. A graph of
31
Oct
A simple harmonic oscillator consists of a block attached to a spring with k = 200 N/m. The block slides on a frictionless horizontal surface, with equilibrium point x = 0. A graph of A simple harmonic oscillator consists of a block attached to a spring with k = 200 N/m. The block slides on [...]
For a particle executing SHM along a straight line, match the statements in column 1 with statement in column 2. (Note that displacement given in column 1 is to be measured from mean position).
31
Oct
For a particle executing SHM along a straight line, match the statements in column 1 with statement in column 2. (Note that displacement given in column 1 is to be measured from mean position). For a particle executing SHM along a straight line match the statements in column 1 with statement in column 2. (Note [...]
A positively charge sphere of radius r0 carries a volume charge density ρ. A spherical cavity of radius r0/2 is then scooped out and left empty. C1 is the center of the sphere and C2 that of the cavity. What is the direction and magnitude of the electric field at point B?
31
Oct
A positively charge sphere of radius r0 carries a volume charge density ρ. A spherical cavity of radius r0/2 is then scooped out and left empty. C1 is the center of the sphere and C2 that of the cavity. What is the direction and magnitude of the electric field at point B? In a region [...]