Question

A charge of `3 C` is at the origin. How much energy would be applied to or released from a `-1 C` charge if it is moved from `( 2 , -8 )` to `(-2 , 5 )`?

Answer 1

`W~=-8,37*10^9 J`

Explanation:

`P_1(2,-8)" "P_2=(-2,5)`
`r_1=sqrt((2-0)^2+(-8-0)^2)=sqrt(4+64)=sqrt68`
`"(distance between origin and the point of " P_1)`

`r_2=sqrt((-2-0)^2+(5-0)^2)=sqrt(4+25)=sqrt29`
`"(distance between origin and the point of " P_2)`

`E=k (q_1*q_2)/r_1+k(q_1*q_2)/r_2" (1)"`
`"it is done work; if a charge is moved from one point to another."`
`"Work doing by system is equal the potential energy of system."`
`"We obtain the fallowing equation; if we rearrange the equation (1)"`
`W=k.q_1*q_2(1/r_1+1/r_2)`
`W=k*3*(-1)(1/sqrt68+1/sqrt29)`
`W=-3k((sqrt29+sqrt68)/(sqrt(68*29))) " "k=9.10^9`
`W=-27*10^9*0,31`
`W~=-8,37*10^9 J`
`"The energy of system has decreased"`