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Find the electric field vector at P (a,a...

Find the electric field vector at P (a,a,a) due to three infinitely long lines of charges along the x-, y- and z-axis, respectively. The charge density i.e. charge per unit length of each wire is `(lamba)`,

A

`(lambda)/(3 pi epsilon_(0)a)(hat(i)+hat(j)+hat(k))`

B

`(lambda)/(2 pi epsilon_(0)a)(hat(i)+hat(j)+hat(k))`

C

`(lambda)/(2sqrt(2) pi epsilon_(0)a)(hat(i)+hat(j)+hat(k))`

D

`(2 lambda)/( pi epsilon_(0)a)(hat(i)+hat(j)+hat(k))`

Text Solution

Verified by Experts

The correct Answer is:
B
Let us consider the electric field due to wire (3) only

`vecE_(3)=E hat(u)`
`=(lambda)/(2 pi epsilon_(0)(a^(2)+a^(2))^(1//2)) (hat (i) cos 45^(@)+hat (j)45^(@))`
`(lambda)/(2sqrt(2)pi epsilon_(0)a)(1)/(sqrt(2))(hat(i)+hat(j))`
`(lambda)/(4 pi epsilon_(0)a)(hat(i)+hat(j))`
Similarly, electric field due to wires (1) and (2)
`vec(E_1)=(lambda)/(4 pi epsilon_(0)a)(hat(j)+hat(k))` and `vec(E_2)=(lambda)/(4 pi epsilon_(0)a)(hat(i)+hat(k))`
`vecE_("net")=vecE_(1)+vecE_(2)+vecE_(3)=(lambda)/(4 pi epsilon_(0)a)(hat(i)+hat(j)+hat(k))`.
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Knowledge Check

  • The electric field vector at point P(a, a, a) due to three uniformly charged infinite wires 1, 2 and 3 kept the x, y and z - axes, respectively as shown in the shown in figure is (Charge unit length of each wire is lambda )

    A
    `(lambda)/(3pi epsilon_(0)a)(hati+hatj+hatk)`
    B
    `(lambda)/(2piepsilon_(0)a)(hati+hatj+hatk)`
    C
    `(lambda)/(2sqrt2 pi epsilon_(0)a)(hati+hatj+hatk)`
    D
    `(sqrt2 lambda)/(pi epsilon_(0)a)(hati+hatj+hatk)`

  • The electric field intensity due to a thin infinity long straight wire of uniform linear charge density lambda at O is-

    A
    `(lambda)/(2pi epsilon_(0)R)`
    B
    `(lambda sqrt(2))/(2pi epsilon_(0)R)`
    C
    `(lambda sqrt(5))/(2pi epsilon_(0)R)`
    D
    zero

  • The diagram shows three infinitely long uniform line charges placed on the X, Y and Z axis . The word done in moving a unit positive charge from (1,1,1) to (0 , 1,1,) is equal to .

    A
    ` ( lambda ln2 ) / 2 pi varepsilon _(0)`
    B
    `(lambda ln 2 ) // pi varepsilon _(0)`
    C
    `(3lambdal ln 2) //2 pivarepsilon _(0)`
    D
    None

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