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Uniform electric field of magnitude 100 ...

Uniform electric field of magnitude `100 Vm^-1` in space is directed along the line `y = 3 + x`. Find the potential difference between points `A (3,1) and B (1,3)`.

Text Solution

Verified by Experts

Equation of the line
`y = 3 + x`.
The slope of line
`tan theta = 1 or theta = 45^(@)`
we can express electric field in vector form
`vec E = 100 cos theta hat i + 100 sin theta hat j (V m^-1)`
Electric field `vec E = |vec E | (cos theta hat i + sin theta hat j)`
`vec E = (100)/(sqrt(2)) hat i + (100)/(sqrt(2)) hat j (V m^-1)`
`Delta vec r = vec (AB) = vec r_B - vec r _A = (hat i + 3 hat j)-(3 hat i + hat j)= -2 hat i + 2 hat j`
`Delta V = - vec E . Delta vec r = - ((100)/(sqrt(2)) hat i + (100)/(sqrt(2)) hat j). Delta vec r`
= `- ((100)/(sqrt(2)) hat i + (100)/(sqrt(2)) hat j) . (-2 hat i + 2 hat j)`
=`-100 sqrt(2) + 100 sqrt(2)`
`V_A - V_B = 0`.
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Knowledge Check

  • Uniform electric field of magnitude 100 V//m in space is directed along the line y=3+x . Find the potential difference between point A (3, 1) & B(1, 3)

    A
    `100 V`
    B
    `200 sqrt(2) V`
    C
    `200 V`
    D
    `0`

  • A uniform electric field of 100 V//m is directed at 3^@ with the positive x-axis as shown in figure. Find the potential difference V_(BA) if OA=2 m and OB=4 m.

    A
    `-200(3+sqrt2)`
    B
    `50(2+sqrt3)`
    C
    `-100(3+sqrt2)`
    D
    `-100(2+sqrt3)`

  • A uniform electric field to 100 Vm^(-1) is directed at 60^@ with the positive x-axis as shown in figure. If OA= 2 m, the potential difference V_O - V_(A) is

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