Part 2

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The electric potential (in volt) a region given by V=6x−8xy^2−8y+6yz−4x^2 volt Then electric force acting on a point charge of 2 C placed at the origin will be
02
Dec
The electric potential (in volt) a region given by V=6x−8xy^2−8y+6yz−4x^2 volt Then electric force acting on a point charge of 2 C placed at the origin will be The electric potential (in volt) a region given by V=6x−8xy^2−8y+6yz−4x^2 volt Then electric force acting on a point charge of 2 C placed at the origin will [...]
Posted in: Cengage NEET by C.P Singh , Chapter 1 - Electrostatics , Part 2 ,
Tags: The electric potential (in volt) a region given by V=6x−8xy^2−8y+6yz−4x^2 volt Then electric force acting on a point charge of 2 C placed at the origin will be ,
An electric field E = (20i + 30j) N/C exists in space. If potential at the origin is taken to be zero, find the potential at the point (2m,2m)
02
Dec
An electric field E = (20i + 30j) N/C exists in space. If potential at the origin is taken to be zero, find the potential at the point (2m,2m) 2m An electric field E = (20i + 30j) N/C exists in space. If potential at the origin is taken to be zero find the potential [...]
Posted in: Cengage NEET by C.P Singh , Chapter 1 - Electrostatics , Part 2 ,
Tags: 2m , An electric field E = (20i + 30j) N/C exists in space. If potential at the origin is taken to be zero , find the potential at the point (2m ,
The electric potential at a point (x,y,z) is given by V=−x^2y−xz^3+4 The electric field E→ at that point is
02
Dec
The electric potential at a point (x,y,z) is given by V=−x^2y−xz^3+4 The electric field E→ at that point is The electric potential at a point (x y z) is given by V=−x^2y−xz^3+4 The electric field E→ at that point is December 2, 2020 Category: Cengage NEET by C.P Singh , Chapter 1 - Electrostatics , [...]
Posted in: Cengage NEET by C.P Singh , Chapter 1 - Electrostatics , Part 2 ,
Tags: The electric potential at a point (x , y , z) is given by V=−x^2y−xz^3+4 The electric field E→ at that point is ,
The electric potential V at any point (x, y, z), all in metres in space is given by V = 4x^2 volt. The electric field at the point (1m, 0, 2m) in vector from
02
Dec
The electric potential V at any point (x, y, z), all in metres in space is given by V = 4x^2 volt. The electric field at the point (1m, 0, 2m) in vector from 2m) in vector from all in metres in space is given by V = 4x^2 volt. The electric field at the [...]
Posted in: Cengage NEET by C.P Singh , Chapter 1 - Electrostatics , Part 2 ,
Tags: 2m) in vector from , all in metres in space is given by V = 4x^2 volt. The electric field at the point (1m , The electric potential V at any point (x , y , Z) ,
In a uniform electric field , 1. all points are at the same potential 2. no two points can have the same potential 3. pairs of points separate by the same distance must have the same difference in potential 4. none of these
02
Dec
In a uniform electric field , 1. all points are at the same potential 2. no two points can have the same potential 3. pairs of points separate by the same distance must have the same difference in potential 4. none of these 1. all points are at the same potential 2. no two points [...]
Posted in: Cengage NEET by C.P Singh , Chapter 1 - Electrostatics , Part 2 ,
Tags: 1. all points are at the same potential 2. no two points can have the same potential 3. pairs of points separate by the same distance must have the same difference in potential 4. none of these , In a uniform electric field ,
In a uniform electric field , equipotential surface must (i) be plane surfaces (ii) be normal to the direction to the filed (iii) be spaced such that surfaces having equal difference in potential are separated by equal distances (iv) have decreasing potentials in the direction of field
02
Dec
In a uniform electric field , equipotential surface must (i) be plane surfaces (ii) be normal to the direction to the filed (iii) be spaced such that surfaces having equal difference in potential are separated by equal distances (iv) have decreasing potentials in the direction of field equipotential lines are shown. In a uniform electric [...]
Posted in: Cengage NEET by C.P Singh , Chapter 1 - Electrostatics , Part 2 ,
Tags: equipotential lines are shown. , In a uniform electric field , In the following figure ,
The electric field and the electric potential at a point are E and V respectively.
01
Dec
The electric field and the electric potential at a point are E and V respectively. The electric field and the electric potential at a point are E and V respectively. December 1, 2020 Category: Cengage NEET by C.P Singh , Chapter 1 - Electrostatics , Part 2 ,
Posted in: Cengage NEET by C.P Singh , Chapter 1 - Electrostatics , Part 2 ,
Tags: The electric field and the electric potential at a point are E and V respectively. ,
In the following graph, the magnitude of maximum electric field is
01
Dec
In the following graph, the magnitude of maximum electric field is In the following graph the magnitude of maximum electric field is December 1, 2020 Category: Cengage NEET by C.P Singh , Chapter 1 - Electrostatics , Part 2 ,
Posted in: Cengage NEET by C.P Singh , Chapter 1 - Electrostatics , Part 2 ,
Tags: In the following graph , the magnitude of maximum electric field is ,
Some equipotential surfaces are shown in figure. The magnitude and direction of electric field is
01
Dec
Some equipotential surfaces are shown in figure. The magnitude and direction of electric field is Some equipotential surfaces are shown in figure. The magnitude and direction of electric field is December 1, 2020 Category: Cengage NEET by C.P Singh , Chapter 1 - Electrostatics , Part 2 ,
Posted in: Cengage NEET by C.P Singh , Chapter 1 - Electrostatics , Part 2 ,
Tags: Some equipotential surfaces are shown in figure. The magnitude and direction of electric field is ,
In the following figure, equipotential lines are shown.
01
Dec
In the following figure, equipotential lines are shown. equipotential lines are shown. In the following figure December 1, 2020 Category: Cengage NEET by C.P Singh , Chapter 1 - Electrostatics , Part 2 ,
Posted in: Cengage NEET by C.P Singh , Chapter 1 - Electrostatics , Part 2 ,
Tags: equipotential lines are shown. , In the following figure ,