y and z are in meter. A particle has charge q=1012C and mass m=10−9g and is constrained to move in xy plane. Find the initial acceleraton of the particle if it is released at (1
Sahay Sir > Question Answers > y and z are in meter. A particle has charge q=1012C and mass m=10−9g and is constrained to move in xy plane. Find the initial acceleraton of the particle if it is released at (1
A point charge q is located at the centre O of a spherical uncharged coducting layer provided with small orifice. The inside and outside radii of the layer are equal to a and b respectively. The amount of work that has to be performed to slowly transfer the charge q from teh point O through the orifice and into infinity is
05
Nov
A point charge q is located at the centre O of a spherical uncharged coducting layer provided with small orifice. The inside and outside radii of the layer are equal to a and b respectively. The amount of work that has to be performed to slowly transfer the charge q from teh point O through [...]
Tags:
1 ,
1)m. ,
Electric potential in a 3 dimensional space is given by V=(1/x+1/y+2/z) volt where x ,
maintained at a constant potential V ,
Water from a tap ,
y and z are in meter. A particle has charge q=1012C and mass m=10−9g and is constrained to move in xy plane. Find the initial acceleraton of the particle if it is released at (1 ,
A small ball of mass 2 × 10^−3 kg, having a charge 1 μC, is suspended by a string of length 0.8m. Another identical ball having the same charge is kept at the point of suspension. Determine the minimum horizontal velocity that should be imparted to the lower ball so that it can make a complete revolution.
05
Nov
A small ball of mass 2 × 10^−3 kg, having a charge 1 μC, is suspended by a string of length 0.8m. Another identical ball having the same charge is kept at the point of suspension. Determine the minimum horizontal velocity that should be imparted to the lower ball so that it can make a [...]
Tags:
1 ,
1)m. ,
A small ball of mass 2 × 10^−3 kg ,
Electric potential in a 3 dimensional space is given by V=(1/x+1/y+2/z) volt where x ,
having a charge 1 μC ,
maintained at a constant potential V ,
Water from a tap ,
y and z are in meter. A particle has charge q=1012C and mass m=10−9g and is constrained to move in xy plane. Find the initial acceleraton of the particle if it is released at (1 ,
Water from a tap, maintained at a constant potential V, is allowed to fall by drops of radius r through a small hole into a hollow conducting sphere of radius R standing on an insulating stand until it fills the entire sphere. Find the potential of the hollow conductor after it is completely filled with water.
05
Nov
Water from a tap, maintained at a constant potential V, is allowed to fall by drops of radius r through a small hole into a hollow conducting sphere of radius R standing on an insulating stand until it fills the entire sphere. Find the potential of the hollow conductor after it is completely filled with [...]
Tags:
1 ,
1)m. ,
Electric potential in a 3 dimensional space is given by V=(1/x+1/y+2/z) volt where x ,
maintained at a constant potential V ,
Water from a tap ,
y and z are in meter. A particle has charge q=1012C and mass m=10−9g and is constrained to move in xy plane. Find the initial acceleraton of the particle if it is released at (1 ,
Electric potential in a 3 dimensional space is given by V=(1/x+1/y+2/z) volt where x,y and z are in meter. A particle has charge q=1012C and mass m=10−9g and is constrained to move in xy plane. Find the initial acceleraton of the particle if it is released at (1, 1, 1)m.
01
Nov
Electric potential in a 3 dimensional space is given by V=(1/x+1/y+2/z) volt where x,y and z are in meter. A particle has charge q=1012C and mass m=10−9g and is constrained to move in xy plane. Find the initial acceleraton of the particle if it is released at (1, 1, 1)m. 1 1)m. Electric potential in [...]