Arihant Physics by D.C Pandey

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In the figure shown below ,the charge on the left plate of the 10μF capacitor is −30μC.The charge on the right plate of the 6μ,F capacitor is :
05
Dec
In the figure shown below ,the charge on the left plate of the 10μF capacitor is −30μC.The charge on the right plate of the 6μ,F capacitor is : F capacitor is : In the figure shown below the charge on the left plate of the 10μF capacitor is −30μC.The charge on the right plate of [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 2 - Electrostatic Potential and Capacitance , Volume 2 ,
Tags: F capacitor is : , In the figure shown below , the charge on the left plate of the 10μF capacitor is −30μC.The charge on the right plate of the 6μ ,
Three charges Q, +q and +q are placed at the vertices of a right-angled isosceles triangle as shown. The net electrostatic energy of the configuration is zero if the value of Q is :
05
Dec
Three charges Q, +q and +q are placed at the vertices of a right-angled isosceles triangle as shown. The net electrostatic energy of the configuration is zero if the value of Q is : +q and +q are placed at the vertices of a right-angled isosceles triangle as shown. The net electrostatic energy of the [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 2 - Electrostatic Potential and Capacitance , Volume 2 ,
Tags: +q and +q are placed at the vertices of a right-angled isosceles triangle as shown. The net electrostatic energy of the configuration is zero if the value of Q is : , Three charges +q ,
A parallel plate capacitor having capacitance 12pF is charged by a battery to a potential difference of 10V between its plates. The charging battery is now disconnected and a porcelain slab of dielectric constant 6.5 is slipped between the plates. The work done by the capacitor on the slab is
05
Dec
A parallel plate capacitor having capacitance 12pF is charged by a battery to a potential difference of 10V between its plates. The charging battery is now disconnected and a porcelain slab of dielectric constant 6.5 is slipped between the plates. The work done by the capacitor on the slab is For a uniformly charged ring [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 2 - Electrostatic Potential and Capacitance , Volume 2 ,
Tags: For a uniformly charged ring of radius R , the electric field on its axis has the largest magnitude at a distance h from its centre. Then value of h is : ,
Four equal point charges Q each are placed in the xy plane at (0, 2), (4, 2), (4, -2) and (0, -2). The work required to put a fifth charge Q at the origin of the coordinate system will be :
05
Dec
Four equal point charges Q each are placed in the xy plane at (0, 2), (4, 2), (4, -2) and (0, -2). The work required to put a fifth charge Q at the origin of the coordinate system will be : -2) and (0 -2). The work required to put a fifth charge Q at [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 2 - Electrostatic Potential and Capacitance , Volume 2 ,
Tags: -2) and (0 , -2). The work required to put a fifth charge Q at the origin of the coordinate system will be : , 2 , 4 , Four equal point charges Q each are placed in the xy plane at (0 ,
Two charges – q and + q are located at a and b respectively, constitute an electric dipole. Distance AB = 2a, O is the mid point of the dipole and OP is perpendicular to AB. A charges Q is placed at P, where OP = Y and Y >> 2a. The charge q experiences as electrostatic force F. If Q is now move along the equatorial line to P such that Op = (y/3), the force on Q will be closed to (y/3>>2a).
05
Dec
Two charges – q and + q are located at a and b respectively, constitute an electric dipole. Distance AB = 2a, O is the mid point of the dipole and OP is perpendicular to AB. A charges Q is placed at P, where OP = Y and Y >> 2a. The charge q experiences [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 2 - Electrostatic Potential and Capacitance , Volume 2 ,
Tags: constitute an electric dipole. Distance AB = 2a , O is the mid point of the dipole and OP is perpendicular to AB. A charges Q is placed at P , the force on Q will be closed to (y/3>>2a). , Two charges - q and + q are located at a and b respectively , where OP = Y and Y >> 2a. The charge q experiences as electrostatic force F. If Q is now move along the equatorial line to P such that Op = (y/3) ,
Two electric dipoles, A, B with respective dipole moments dA−→=−4 qa iˆ and dB−→=−2 qa iˆ are placed on the x-axis with a separation R, as shown in the figure. The distance from A at which both of them produce the same potential is :
05
Dec
Two electric dipoles, A, B with respective dipole moments dA−→=−4 qa iˆ and dB−→=−2 qa iˆ are placed on the x-axis with a separation R, as shown in the figure. The distance from A at which both of them produce the same potential is : A) as shown in the figure. The distance from A [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 2 - Electrostatic Potential and Capacitance , Volume 2 ,
Tags: A) , as shown in the figure. The distance from A at which both of them produce the same potential is : , B with respective dipole moments dA−→=−4 qa iˆ and dB−→=−2 qa iˆ are placed on the x-axis with a separation R , Two electric dipoles ,
A parallel plate capacitor is of area 6cm^2 and a separation 3 mm. The gap is filled with three dielectric materials of equal thickness (see figure) with dielectric constants K1,=10,K2=12 and K3=14. The dielectric constant of a material which when fully inserted in above capacitor, gives same capacitance would be :
05
Dec
A parallel plate capacitor is of area 6cm^2 and a separation 3 mm. The gap is filled with three dielectric materials of equal thickness (see figure) with dielectric constants K1,=10,K2=12 and K3=14. The dielectric constant of a material which when fully inserted in above capacitor, gives same capacitance would be : 10 A parallel plate [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 2 - Electrostatic Potential and Capacitance , Volume 2 ,
Tags: 10 , A parallel plate capacitor is of area 6cm^2 and a separation 3 mm. The gap is filled with three dielectric materials of equal thickness (see figure) with dielectric constants K1 , gives same capacitance would be : , K2=12 and K3=14. The dielectric constant of a material which when fully inserted in above capacitor ,
A charge Q is distributed over three concentric spherical shells of radii a, b, c (a< b < c) such that their surface charge densities are equal to one another. The total potential at a point at distance r from their common centre, where r < a, would be :
05
Dec
A charge Q is distributed over three concentric spherical shells of radii a, b, c (a< b < c) such that their surface charge densities are equal to one another. The total potential at a point at distance r from their common centre, where r < a, would be : A charge Q is distributed [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 2 - Electrostatic Potential and Capacitance , Volume 2 ,
Tags: A charge Q is distributed over three concentric spherical shells of radii a , B , c (a< b < c) such that their surface charge densities are equal to one another. The total potential at a point at distance r from their common centre , where r < a , would be ,
Two point charges q1(10−−√μC) and q2(−25μC) are placed on the x-axis at x = 1 m and x = 4 m respectively. The electric field (in V/m) at a point y = 3 m on y-axis is, [take 1/4π∈0 = 9 × 10^9 Nm^2 C^−2]
05
Dec
Two point charges q1(10−−√μC) and q2(−25μC) are placed on the x-axis at x = 1 m and x = 4 m respectively. The electric field (in V/m) at a point y = 3 m on y-axis is, [take 1/4π∈0 = 9 × 10^9 Nm^2 C^−2] [take 1/4π∈0 = 9 × 10^9 Nm^2 C^−2] Two point [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 2 - Electrostatic Potential and Capacitance , Volume 2 ,
Tags: [take 1/4π∈0 = 9 × 10^9 Nm^2 C^−2] , Two point charges q1(10−−√μC) and q2(−25μC) are placed on the x-axis at x = 1 m and x = 4 m respectively. The electric field (in V/m) at a point y = 3 m on y-axis is ,
Charge is distributed within a sphere of radius R with a volume charge density p(r)=A/r2e^−2r/a, where A and a are constants. If Q is the total charge of this charge distribution, the radius R is :
05
Dec
Charge is distributed within a sphere of radius R with a volume charge density p(r)=A/r2e^−2r/a, where A and a are constants. If Q is the total charge of this charge distribution, the radius R is : Charge is distributed within a sphere of radius R with a volume charge density p(r)=A/r2e^−2r/a the radius R is [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 2 - Electrostatic Potential and Capacitance , Volume 2 ,
Tags: Charge is distributed within a sphere of radius R with a volume charge density p(r)=A/r2e^−2r/a , the radius R is : , where A and a are constants. If Q is the total charge of this charge distribution ,