Two point charges `(q_(1)` and `q_(2)`) are placed on x-axis, figure shows graph potential (V) on x-axis. With x-co-ordinate:

Two point charges q_1 and q_2 are placed in an external uniform electric field as shown in figure. The potential at the location of q_1 and q_2 are V_1 and V_2 , i.e., V_1 and V_2 are potentials at location of q_1 and q_2 due to external unspecified charges only. Then electric potential energy for this configuration of two charged particle is

Two charges q_(1) and q_(2) are kept on x -axis and electric field at different points an x -axis is plotted against x . Choose correct statement about nature and magnitudes of q_(1) and q_(2)

Two point charge q_(1)=2muC and q_(2)=1muC are placed at distance b=1 and a=2cm from the origin on the y and x axes as shown in figure .The electric field vector at point (a),(b) will subtend on angle theta with the "x-axis" given by

Two point charge q_(1)=2muC and q_(2)=1muC are placed at distance b=1 and a=2cm from the origin on the y and x axes as shown in figure .The electric field vector at point (a,b) will subtend on angle theta with the "x-axis" given by

Electric potential is a scalar quantity. Due to a point charge charge q at distance r, the potential is given by V=(q)/(4pi in_(0)r) . A point charge q is placed at (3a, 0) and another charge -2q is placed at (-3a, 0) . If we plot a graph of potential (V) on x-axis it will be like:

Three charges -q_(1), +q_(2) and -q_(3) are placed as shown in the figure. The x -component of the force on -q_(1) is proportional to

Two particles of charge q_(1) and q_(2) are separated by distance d as shown in figure. Chrage q_(1) is situarted at the origin. The net electirc field due to the particles is zero at x = d//4 . With V = 0 at infinity, the location of a point in terms of d on the x axis (other at infinfity) at which the elctrical potential due to the two particles is zero, is given by:

When two point charges q_(A) and q_(B) are placed at some separation on positive x-axis at points (x_(A), 0) and (x_(B), 0) . Given that |q_(A)| and |q_(B)| and x_(B) gt x_(A) . If null point is the point where net electric field due to both the charges is zero, then

Two point charges q_(1)(sqrt(10)mu C) and q_(2)(-25mu C) are placed on the x-axis at x = 1 m and x = 4 m respectively. The electric field (in V/m) at a point y =3 m on y-axis is, ["take "(1)/(4piin_(0))=9xx10^(9)Nm^(2)C^(-2)]

Two charge +q_1 and +q_2 placed on x-axis at posiution A and B as shown in figure. Which graph best represent potential as a function of distance r from charge q_1