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Three identical charges each of 2 uC are placed at the vertices of a triangle ABC as shown in the figure. If AB + AC = 12 cm and AB. AC = 32 cm, the potential energy of the charge at A is
30
Nov
Three identical charges each of 2 uC are placed at the vertices of a triangle ABC as shown in the figure. If AB + AC = 12 cm and AB. AC = 32 cm, the potential energy of the charge at A is the potential energy of the charge at A is Three identical charges [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 18 - Electric Potential and Capacitance ,
Tags: the potential energy of the charge at A is , Three identical charges each of 2 uC are placed at the vertices of a triangle ABC as shown in the figure. If AB + AC = 12 cm and AB. AC = 32 cm ,
A body of mass M and charge q is connected to a spring of spring constant k. It is oscillating along x-direction about its equilibrium position, taken to be at x=0, with an amplitude A. An electric field E is applied along the x-direction. Which of the following statements is correct ?
30
Nov
A body of mass M and charge q is connected to a spring of spring constant k. It is oscillating along x-direction about its equilibrium position, taken to be at x=0, with an amplitude A. An electric field E is applied along the x-direction. Which of the following statements is correct ? A body of [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 18 - Electric Potential and Capacitance ,
Tags: A body of mass M and charge q is connected to a spring of spring constant k. It is oscillating along x-direction about its equilibrium position , taken to be at x=0 , with an amplitude A. An electric field E is applied along the x-direction. Which of the following statements is correct ? ,
Two point charges A=+3nC and B=+1nC are placed 5 cm apart in air. The work done to move charge B towards A by 1cm is
30
Nov
Two point charges A=+3nC and B=+1nC are placed 5 cm apart in air. The work done to move charge B towards A by 1cm is Two point charges A=+3nC and B=+1nC are placed 5 cm apart in air. The work done to move charge B towards A by 1cm is November 30, 2020 Category: Cengage [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 18 - Electric Potential and Capacitance ,
Tags: Two point charges A=+3nC and B=+1nC are placed 5 cm apart in air. The work done to move charge B towards A by 1cm is ,
The energy density per unit volume of medium in an electric field of intensity 400 V/m is (dielectric constant of material is 2 and e0 = 8.85 x 10^-12 units)
30
Nov
The energy density per unit volume of medium in an electric field of intensity 400 V/m is (dielectric constant of material is 2 and e0 = 8.85 x 10^-12 units) The energy density per unit volume of medium in an electric field of intensity 400 V/m is (dielectric constant of material is 2 and e0 [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 18 - Electric Potential and Capacitance ,
Tags: The energy density per unit volume of medium in an electric field of intensity 400 V/m is (dielectric constant of material is 2 and e0 = 8.85 x 10^-12 units) ,
Calculate the energy per unit volume of a medium of dielectric constant 3,if the intensity of the electric field is 100v/m​
30
Nov
Calculate the energy per unit volume of a medium of dielectric constant 3,if the intensity of the electric field is 100v/m​ Calculate the energy per unit volume of a medium of dielectric constant 3 if the intensity of the electric field is 100v/m​ November 30, 2020 Category: Cengage JEE Mains Physics by B.M Sharma , [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 18 - Electric Potential and Capacitance ,
Tags: Calculate the energy per unit volume of a medium of dielectric constant 3 , if the intensity of the electric field is 100v/m​ ,
Two positive point charges of 12 and 5 microcoulombs, are placed 10 cm apart in air. The work needed to bring them 4 cm closer is
30
Nov
Two positive point charges of 12 and 5 microcoulombs, are placed 10 cm apart in air. The work needed to bring them 4 cm closer is are placed 10 cm apart in air. The work needed to bring them 4 cm closer is Two positive point charges of 12 and 5 microcoulombs November 30, 2020 [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 18 - Electric Potential and Capacitance ,
Tags: are placed 10 cm apart in air. The work needed to bring them 4 cm closer is , Two positive point charges of 12 and 5 microcoulombs ,
Three point charges 3nC,6nC and 9nC are placed at the corners of an equilateral triangle of side 0.1m. The potential energy of the system is
30
Nov
Three point charges 3nC,6nC and 9nC are placed at the corners of an equilateral triangle of side 0.1m. The potential energy of the system is 6nC and 9nC are placed at the corners of an equilateral triangle of side 0.1m. The potential energy of the system is Three point charges 3nC November 30, 2020 Category: [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 18 - Electric Potential and Capacitance ,
Tags: 6nC and 9nC are placed at the corners of an equilateral triangle of side 0.1m. The potential energy of the system is , Three point charges 3nC ,
Two identical thin rings, each of radius 10cm carrying charges 10C and 5C are coaxially placed at a distance 10cm apart. The work done in moving a charge q from the centre of the first ring to that of the second is
30
Nov
Two identical thin rings, each of radius 10cm carrying charges 10C and 5C are coaxially placed at a distance 10cm apart. The work done in moving a charge q from the centre of the first ring to that of the second is each of radius 10cm carrying charges 10C and 5C are coaxially placed at [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 18 - Electric Potential and Capacitance ,
Tags: each of radius 10cm carrying charges 10C and 5C are coaxially placed at a distance 10cm apart. The work done in moving a charge q from the centre of the first ring to that of the second is , Two identical thin rings ,
Two identical thin ring, each of radius R meters, are coaxially placed a distance R metres apart. If Q1 coulomb, and Q2 coulomb, are respectively the charges uniformly spread on the two rings, the work done in moving a charge q from the centre of one ring to that of the other is
30
Nov
Two identical thin ring, each of radius R meters, are coaxially placed a distance R metres apart. If Q1 coulomb, and Q2 coulomb, are respectively the charges uniformly spread on the two rings, the work done in moving a charge q from the centre of one ring to that of the other is and Q2 [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 18 - Electric Potential and Capacitance ,
Tags: and Q2 coulomb , are coaxially placed a distance R metres apart. If Q1 coulomb , are respectively the charges uniformly spread on the two rings , each of radius R meters , the work done in moving a charge q from the centre of one ring to that of the other is , Two identical thin ring ,
The potential (in volts) of a charge distribution is given by V(z)=30−5z^2 for |z|≤1m V(z)=35−10|z| for |z|≥1m. V(z) does not depend on x and y. If this potential is generated by a constant charge per unit volume ρ0 (in units of ϵ0) which is spread over a certain region, then choose the correct statement.
30
Nov
The potential (in volts) of a charge distribution is given by V(z)=30−5z^2 for |z|≤1m V(z)=35−10|z| for |z|≥1m. V(z) does not depend on x and y. If this potential is generated by a constant charge per unit volume ρ0 (in units of ϵ0) which is spread over a certain region, then choose the correct statement. The [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 18 - Electric Potential and Capacitance ,
Tags: The electric field in a region is given by E→=(A/x3)i^ An expression for the potential in the region assuming the potential at infinity to be zero is ,