Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)
Two independent harmonic oscillators of equal mass are oscillating about the origin with angular frequencies omega 1 and omega 2 and have total energies E1 and E2 respectively.
01
Nov
Two independent harmonic oscillators of equal mass are oscillating about the origin with angular frequencies omega 1 and omega 2 and have total energies E1 and E2 respectively. Two independent harmonic oscillators of equal mass are oscillating about the origin with angular frequencies omega 1 and omega 2 and have total energies E1 and E2 [...]
A particle of mass m is attached to one end of a mass-less spring of force constant k, lying on a frictionless horizontal plane. The other end of the spring is fixed. The particle starts
01
Nov
A particle of mass m is attached to one end of a mass-less spring of force constant k, lying on a frictionless horizontal plane. The other end of the spring is fixed. The particle starts A particle of mass m is attached to one end of a mass-less spring of force constant k lying on [...]
A metal rod of length ‘L’ and mass ‘m’ is pivoted at one end. A thin disk of mass ‘M’ and radius ‘R’ (<L) is attached at its centre to the free end of the rod. Consider two ways the disc
01
Nov
A metal rod of length ‘L’ and mass ‘m’ is pivoted at one end. A thin disk of mass ‘M’ and radius ‘R’ (<L) is attached at its centre to the free end of the rod. Consider two ways the disc A metal rod of length 'L' and mass 'm' is pivoted at one end. [...]
A small block is connected to one end of a massless spring of un-stretched length 4.9 m. The other end of the spring (see the figure) is fixed. The system lies on a horizontal frictionless
01
Nov
A small block is connected to one end of a massless spring of un-stretched length 4.9 m. The other end of the spring (see the figure) is fixed. The system lies on a horizontal frictionless A small block is connected to one end of a massless spring of un-stretched length 4.9 m. The other end [...]
Figure shows a netural metallic sphere with a pointcharge +Q placed near its surface. Electrostatic equilibrium conditions exists on metallic sphere . Mark the correct statements :
01
Nov
Figure shows a netural metallic sphere with a pointcharge +Q placed near its surface. Electrostatic equilibrium conditions exists on metallic sphere . Mark the correct statements : Figure shows a netural metallic sphere with a pointcharge +Q placed near its surface. Electrostatic equilibrium conditions exists on metallic sphere . Mark the correct statements : November [...]
A point mass is subjected to two simultaneous sinusoidal displacements in x-direction, x1(t) = A sin omega t and x2(t) = A sin (omega t + 2 pie/3). Adding a third sinusoidal displacement
01
Nov
A point mass is subjected to two simultaneous sinusoidal displacements in x-direction, x1(t) = A sin omega t and x2(t) = A sin (omega t + 2 pie/3). Adding a third sinusoidal displacement A point mass is subjected to two simultaneous sinusoidal displacements in x-direction x1(t) = A sin omega t and x2(t) = A [...]
Figure shows four Gaussion surfaces consisting of identical cylindrical midsections but different end caps. The surfaces central axis of each . Cylindrical midsection , the end caps have these shapes, S1 convex hemispheres S2 concave hermisphere S3 cones S4e flat disks. rank the surfaces acccording to (a) the net electric flux through them and (b) the electric flux through the top end caps , greatest first.
01
Nov
Figure shows four Gaussion surfaces consisting of identical cylindrical midsections but different end caps. The surfaces central axis of each . Cylindrical midsection , the end caps have these shapes, S1 convex hemispheres S2 concave hermisphere S3 cones S4e flat disks. rank the surfaces acccording to (a) the net electric flux through them and (b) [...]
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Figure shows four Gaussion surfaces consisting of identical cylindrical midsections but different end caps. The surfaces central axis of each . Cylindrical midsection ,
greatest first. ,
S1 convex hemispheres S2 concave hermisphere S3 cones S4e flat disks. rank the surfaces acccording to (a) the net electric flux through them and (b) the electric flux through the top end caps ,
the end caps have these shapes ,
A, B, and C are three large, parallel conducting plates, placed horizontally. A and C are rightly fixed and earthed in figure . B is given some charge . Under the electorstatic and gravitational forces, B may be
01
Nov
A, B, and C are three large, parallel conducting plates, placed horizontally. A and C are rightly fixed and earthed in figure . B is given some charge . Under the electorstatic and gravitational forces, B may be A) and C are three large B B may be parallel conducting plates placed horizontally. A and [...]
An insulating spherical shell of uniform surface charge density is cut into two parts and placed at a distance d apart as shown in figure. Ep and E q denote the electric fields at P and Q, respectively . As d ( i.e. PQ ) is infinity.
01
Nov
An insulating spherical shell of uniform surface charge density is cut into two parts and placed at a distance d apart as shown in figure. Ep and E q denote the electric fields at P and Q, respectively . As d ( i.e. PQ ) is infinity. An insulating spherical shell of uniform surface charge [...]
A uniform rod of length L and mass M is pivoted at the centre. Its two ends are attached to two springs of equal spring constants k. The springs are fixed to rigid supports as shown
01
Nov
A uniform rod of length L and mass M is pivoted at the centre. Its two ends are attached to two springs of equal spring constants k. The springs are fixed to rigid supports as shown A uniform rod of length L and mass M is pivoted at the centre. Its two ends are attached [...]