Suppose that three point charges q(a), q...

Suppose that three point charges `q_(a), q_(b)` and `q_(c)` are arranged at the vertices of a right -angled triangle as shown . What is the absolute electric potential at the position of the third charge if `q_(a)=- 6.0 mu C , q_(b)=+4.0muC , q_(c)=+2.0 mu C , a= 4.0 m ` and b=3.0 m ? Suppose that the third charge which is initially at rest is repelled to infinity by the combined electric field of the other two charges which are held fixed . What is the final final kinetic energy of the third charge ?

Text Solution

Verified by Experts

The electric potential at P (the position of the third charge ) due to the presence of the first charge is
`V_(a)=K_(e)(q_(a))/(c)=(9xx10^(9))((-6xx10^(-6)))/((sqrt(4^(2))+3^(2)))=-1.08xx10^(4)`V
Likewise the electric potential due to the presence of the second charge is
`V_(b)=K_(e)(q_(b))/(b)=(9xx10^(9))((4xx10^(-6)))/((3))=1.20xx10^(4)`V.
The net potential of the third charge `V_(c)` is simply the algebraic sum of the potentials due to the others two charges taken in isolation . Thus
`V_(c)=V_(a)+V_(b)=1.20xx10^(3)V`

Topper's Solved these Questions

ELECTROSTATIC POTENTIAL AND CAPACITANCE
AAKASH INSTITUTE ENGLISH|Exercise EXERCISE|20 Videos
ELECTROSTATIC POTENTIAL AND CAPACITANCE
AAKASH INSTITUTE ENGLISH|Exercise ASSIGNMENT SECTION - A|44 Videos
ELECTROSTATIC POTENTIAL AND CAPACITANCE
AAKASH INSTITUTE ENGLISH|Exercise SECTION-J Aakash Challengers Questions|5 Videos
ELECTROMAGNETIC WAVES
AAKASH INSTITUTE ENGLISH|Exercise ASSIGNMENT SECTION - D Assertion-Reason Type Questions|25 Videos
GRAVITATION
AAKASH INSTITUTE ENGLISH|Exercise ASSIGNMENT SECTION - D (ASSERTION-REASON TYPE QUESTIONS)|15 Videos

Similar Questions

Explore conceptually related problems

Suppose that three point charges, q_(a),q_(b) and q_(c) are arranged at the vertices of a right-angled triangle, as shown. What is the absolute potential at the position of the third charge, if q_(a)= -6.0 muC,q_(b) = +4.0 muC,q_(c) = +2.0 muC,a=4.0 m and b=3.0 m ?

Three charges Q, +q and +q are placed at the vertices of a right-angled isosceles triangle as shown. The net electrostatic energy of the configuration is zero if Q is equal to

Three charges Q_(0) , - q and -q are placed at the vertices of an isosceles right angle triangle as in the figure. The net electrostatic potential energy is zero if Q 0 is equal to :

Three charges Q+q and + q are placed at the vertices of a right -angle isosceles triangle as shown below. The net eletrostatic energy of the configuration is zero if the value of Q is :

Three charge +q, -q , and +2q are placed at the vertices of a right angled triangle (isosceles triangle)as shown. The net electrostatic energy of the configuration is:

Three charges +q , +q, and Q are placed at the comers of a right angled isosceles triangle as shown in the figure. If the net potential energy of the system is zero then value of Q is

Consider three charges q_(1),q_(2) and q_(3) each equal to q , at the vertices of an equilateral triangle of side l. What is the force on a charge Q placed at the centroid of the triangle?

Three charges q_1=1muC, q_2=2muC and q_3=3muC are placed on the vertices of an equilateral triangle of side 1.0 m. Find the net electric force acting on charge q_1

AAKASH INSTITUTE ENGLISH-ELECTROSTATIC POTENTIAL AND CAPACITANCE -EXAMPLE

An electric dipole consists of two charges of equal magnitude and oppo...
Text Solution
|
A charge q(1) = 2.00 mu C is located at the origin , and a charge q(2)...
Text Solution
|
Suppose that three point charges q(a), q(b) and q(c) are arranged at t...
Text Solution
|
Two charges 3 xx 10^(-8) C and -2 xx 10^(-8)C are located 15 cm apart....
Text Solution
|
There are four point charges placed at the vertices of a square of sid...
Text Solution
|
Two point charge - 5muC and + 3muC are placed 64 cm apart. At what poi...
Text Solution
|
If vec(E ) equals zero at a given point mus V equal for that point .
Text Solution
|
If you know ( E) at a given point, can you calculate V at that point ?...
Text Solution
|
How can you check whether the electric potential in a given region of ...
Text Solution
|
An isolated conducting spherical shell carries a negative charge. What...
Text Solution
|
Some equipotential surfaces are shown in figure(29.E3) What can you sa...
Text Solution
|
The electric potential existing in space is V(x,y,z)= A (xy+ yz+zx).(a...
Text Solution
|
An electric field E = (20 hat(i)+30 hat(j)) newton/coulomb exists in t...
Text Solution
|
An electric field vec(E ) = hat(i) Cx exists in the space, where C = ...
Text Solution
|
In a certain region of space the electric potential V is known to be ...
Text Solution
|
A spherical oil drop, radius 10^(-4) cm has on it at a certain a total...
Text Solution
|
A spherical drop of water carrying a charge of 3 xx 10^(-19)C has a po...
Text Solution
|
A charge Q is distributed over two concentric conducting thin spherica...
Text Solution
|
Electric charge Q is uniformly distributed around a thin ring of radiu...
Text Solution
|
Two charges, +q and -q, each of mass m , are revolving in a circle of ...
Text Solution
|