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A system consits fo a thin charged wire ring of radius R and a very long uniformly charged thread oriented along the axis of the ring, with one of its ends coinciding with the centre of the ring. The total charge of the ring, with one of the ring so equal to q. The charge of the thread (per unit length) is equal to λ. Find the interaction froce between the ring and the thread.
30
Aug
A system consits fo a thin charged wire ring of radius R and a very long uniformly charged thread oriented along the axis of the ring, with one of its ends coinciding with the centre of the ring. The total charge of the ring, with one of the ring so equal to q. The charge [...]
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A system consits fo a thin charged wire ring of radius R and a very long uniformly charged thread oriented along the axis of the ring ,
with one of its ends coinciding with the centre of the ring. The total charge of the ring ,
with one of the ring so equal to q. The charge of the thread (per unit length) is equal to λ. Find the interaction froce between the ring and the thread. ,
In the situation shown in figure there is no friction between 2 kg and ground.
30
Aug
In the situation shown in figure there is no friction between 2 kg and ground. In the situation shown in figure there is no friction between 2 kg and ground. August 30, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
figure shows a hallow hemisphere, uniformly charged with surface charge density alpha C/m^2, find electric field strenght at its centre C
30
Aug
figure shows a hallow hemisphere, uniformly charged with surface charge density alpha C/m^2, find electric field strenght at its centre C figure shows a hallow hemisphere find electric field strenght at its centre C uniformly charged with surface charge density alpha C/m^2 August 30, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP [...]
Find the accelerations a1, a2 , a3 of the three blocks shown in figure (6-E8). If a horizontal force of 10N is applied on (a) 2 kg block (b) 3 kg block , (c) 7 kg block. Take g= 10 m/s².
30
Aug
Find the accelerations a1, a2 , a3 of the three blocks shown in figure (6-E8). If a horizontal force of 10N is applied on (a) 2 kg block (b) 3 kg block , (c) 7 kg block. Take g= 10 m/s². (c) 7 kg block. Take g= 10 m/s². a2 a3 of the three blocks [...]
Two blocks A and B of equal masses are placed on rough inclined plane as shown in Fig. When and where will the two blocks come on the same line on the inclined plane if they are released simultaneously ? Initilly the blocks A is sqrt2 m behind the block B .Coefficient of kinetic friction for the block A and B are 0.2 and 0.3 respectively
30
Aug
Two blocks A and B of equal masses are placed on rough inclined plane as shown in Fig. When and where will the two blocks come on the same line on the inclined plane if they are released simultaneously ? Initilly the blocks A is sqrt2 m behind the block B .Coefficient of kinetic friction [...]
An infinite dielectric sheet having charge density σ has a holeof radius R in it. An electrom is released from point P on the axis of the hole at a distance 3–√R from the center. Find the speed with which it crosses the plane of the sheet.
30
Aug
An infinite dielectric sheet having charge density σ has a holeof radius R in it. An electrom is released from point P on the axis of the hole at a distance 3–√R from the center. Find the speed with which it crosses the plane of the sheet. A long wire with a uniform charge density [...]
Blocks A, B and C are placed as shown in Fig and connected by the rops of negligible mass . Both A and B weigh 25.0 N each , and the coefficient of kinetic friction between each and the surface is 0.35 blocks C descends with constant velocity .
30
Aug
Blocks A, B and C are placed as shown in Fig and connected by the rops of negligible mass . Both A and B weigh 25.0 N each , and the coefficient of kinetic friction between each and the surface is 0.35 blocks C descends with constant velocity . and the coefficient of kinetic friction [...]
A segment of a charged wire of length l, charge density λ2 and an infinitely long chaged wire. Charge density λ1 . Lie in a plate at right angles to each other. The sepatation between the wires is r0 . Determine the force of interction between the wires.
30
Aug
A segment of a charged wire of length l, charge density λ2 and an infinitely long chaged wire. Charge density λ1 . Lie in a plate at right angles to each other. The sepatation between the wires is r0 . Determine the force of interction between the wires. A long wire with a uniform charge [...]
Consider the two blocks as shown in figure . A force is applied on the lower block. a Where does the sliding begins first?
30
Aug
Consider the two blocks as shown in figure . A force is applied on the lower block. a Where does the sliding begins first? Consider the two blocks as shown in figure . A force is applied on the lower block. a Where does the sliding begins first? August 30, 2020 Category: Uncategorised (JEE Advanced [...]
A long wire with a uniform charge density λ is bent in two configurations shown in fig. Determine the electric field intensity at point O.
30
Aug
A long wire with a uniform charge density λ is bent in two configurations shown in fig. Determine the electric field intensity at point O. A long wire with a uniform charge density λ is bent in two configurations shown in fig. Determine the electric field intensity at point O. August 30, 2020 Category: Uncategorised [...]