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The grid (each square of 1m*1m) represent a region in space containing a uniform electric field. If potentials at points O,A,B,C,D,E,F,G and H are respectively 0,-1,-2,1,2,0,-1,1 and 0 volts ,find the electric field intensity in vector form?
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The grid (each square of 1m*1m) represent a region in space containing...
Electric Field Intensity in a Uniform Electric Field
To determine the electric field intensity in vector form, we need to analyze the given potentials at different points in the grid. By considering the potential differences between adjacent points, we can calculate the electric field intensity.
Step 1: Identifying the Points
Let's first identify the given points in the grid:
- O: Potential = 0 volts
- A: Potential = -1 volt
- B: Potential = -2 volts
- C: Potential = 1 volt
- D: Potential = 2 volts
- E: Potential = 0 volts
- F: Potential = -1 volt
- G: Potential = 1 volt
- H: Potential = 0 volts
Step 2: Calculating Potential Differences
Now, we will calculate the potential differences between adjacent points. The potential difference between two points (P1 and P2) is given by the equation:
ΔV = V2 - V1
We will use the convention that the electric field points from higher potential to lower potential.
- ΔV(OA) = V(A) - V(O) = (-1) - 0 = -1 volt
- ΔV(AB) = V(B) - V(A) = (-2) - (-1) = -1 volt
- ΔV(BC) = V(C) - V(B) = 1 - (-2) = 3 volts
- ΔV(CD) = V(D) - V(C) = 2 - 1 = 1 volt
- ΔV(DE) = V(E) - V(D) = 0 - 2 = -2 volts
- ΔV(EF) = V(F) - V(E) = (-1) - 0 = -1 volt
- ΔV(FG) = V(G) - V(F) = 1 - (-1) = 2 volts
- ΔV(GH) = V(H) - V(G) = 0 - 1 = -1 volt
Step 3: Calculating Electric Field Intensity
The electric field intensity (E) between two points is related to the potential difference (ΔV) by the equation:
E = -ΔV / d
where d represents the distance between the two points.
By comparing the potential differences between adjacent points and their distances (assuming each square has a side length of 1 meter), we can calculate the electric field intensity in vector form:
- E(OA) = -ΔV(OA) / d(OA) = -(-1) / 1 = 1 V/m (directed from A to O)
- E(AB) = -ΔV(AB) / d(AB) = -(-1) / 1 = 1 V/m (directed from B to A)
- E(BC) = -ΔV(BC) / d(BC) = -3 / 1 = -3 V/m (directed from C to B)
- E(CD) = -ΔV(CD) / d(CD) = -1 / 1 = -1 V/m (directed from D to C)
- E(DE) = -ΔV(DE) / d(DE) = -(-
To determine the electric field intensity in vector form, we need to analyze the given potentials at different points in the grid. By considering the potential differences between adjacent points, we can calculate the electric field intensity.
Step 1: Identifying the Points
Let's first identify the given points in the grid:
- O: Potential = 0 volts
- A: Potential = -1 volt
- B: Potential = -2 volts
- C: Potential = 1 volt
- D: Potential = 2 volts
- E: Potential = 0 volts
- F: Potential = -1 volt
- G: Potential = 1 volt
- H: Potential = 0 volts
Step 2: Calculating Potential Differences
Now, we will calculate the potential differences between adjacent points. The potential difference between two points (P1 and P2) is given by the equation:
ΔV = V2 - V1
We will use the convention that the electric field points from higher potential to lower potential.
- ΔV(OA) = V(A) - V(O) = (-1) - 0 = -1 volt
- ΔV(AB) = V(B) - V(A) = (-2) - (-1) = -1 volt
- ΔV(BC) = V(C) - V(B) = 1 - (-2) = 3 volts
- ΔV(CD) = V(D) - V(C) = 2 - 1 = 1 volt
- ΔV(DE) = V(E) - V(D) = 0 - 2 = -2 volts
- ΔV(EF) = V(F) - V(E) = (-1) - 0 = -1 volt
- ΔV(FG) = V(G) - V(F) = 1 - (-1) = 2 volts
- ΔV(GH) = V(H) - V(G) = 0 - 1 = -1 volt
Step 3: Calculating Electric Field Intensity
The electric field intensity (E) between two points is related to the potential difference (ΔV) by the equation:
E = -ΔV / d
where d represents the distance between the two points.
By comparing the potential differences between adjacent points and their distances (assuming each square has a side length of 1 meter), we can calculate the electric field intensity in vector form:
- E(OA) = -ΔV(OA) / d(OA) = -(-1) / 1 = 1 V/m (directed from A to O)
- E(AB) = -ΔV(AB) / d(AB) = -(-1) / 1 = 1 V/m (directed from B to A)
- E(BC) = -ΔV(BC) / d(BC) = -3 / 1 = -3 V/m (directed from C to B)
- E(CD) = -ΔV(CD) / d(CD) = -1 / 1 = -1 V/m (directed from D to C)
- E(DE) = -ΔV(DE) / d(DE) = -(-
Community Answer
The grid (each square of 1m*1m) represent a region in space containing...
In all 3 direction one by one find change in potential & then divide it by side length so we get e.f.in vector form
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The grid (each square of 1m*1m) represent a region in space containing a uniform electric field. If potentials at points O,A,B,C,D,E,F,G and H are respectively 0,-1,-2,1,2,0,-1,1 and 0 volts ,find the electric field intensity in vector form?
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The grid (each square of 1m*1m) represent a region in space containing a uniform electric field. If potentials at points O,A,B,C,D,E,F,G and H are respectively 0,-1,-2,1,2,0,-1,1 and 0 volts ,find the electric field intensity in vector form? for JEE 2024 is part of JEE preparation. The Question and answers have been prepared according to the JEE exam syllabus. Information about The grid (each square of 1m*1m) represent a region in space containing a uniform electric field. If potentials at points O,A,B,C,D,E,F,G and H are respectively 0,-1,-2,1,2,0,-1,1 and 0 volts ,find the electric field intensity in vector form? covers all topics & solutions for JEE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for The grid (each square of 1m*1m) represent a region in space containing a uniform electric field. If potentials at points O,A,B,C,D,E,F,G and H are respectively 0,-1,-2,1,2,0,-1,1 and 0 volts ,find the electric field intensity in vector form?.
The grid (each square of 1m*1m) represent a region in space containing a uniform electric field. If potentials at points O,A,B,C,D,E,F,G and H are respectively 0,-1,-2,1,2,0,-1,1 and 0 volts ,find the electric field intensity in vector form? for JEE 2024 is part of JEE preparation. The Question and answers have been prepared according to the JEE exam syllabus. Information about The grid (each square of 1m*1m) represent a region in space containing a uniform electric field. If potentials at points O,A,B,C,D,E,F,G and H are respectively 0,-1,-2,1,2,0,-1,1 and 0 volts ,find the electric field intensity in vector form? covers all topics & solutions for JEE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for The grid (each square of 1m*1m) represent a region in space containing a uniform electric field. If potentials at points O,A,B,C,D,E,F,G and H are respectively 0,-1,-2,1,2,0,-1,1 and 0 volts ,find the electric field intensity in vector form?.
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