The resultant of A and B is `R_(1)` On reversing the vector B , the resultant `R_(2)` what is the value of `R_(1)^(2)+ R_(2)^(2)`?

The resultant vector of vec(P) and vec(Q) is vec(R ) . On reversing the direction of vec(Q) the resultant vector becomes vec(S) . Show that R^(2)+S^(2)=2(P^(2)+Q^(2))

The resistance of metal sheet 1 between A and B is R_1 and the resistance of sheet 2 between A' and B' is R_(2) . The value of the ratio (R_1)/(R_2) is

The circuit is shown in the following figure. The potential at points A, B, C, D and O are given. The currents in the resistance R_(1), R_(2) and R_(3) are in the ratio of 4:2:1 . What is the ratio of resistance R_(1),R_(2),R_(3) and R_(4) ?

The angle between two vector A and B is theta . Vector R is the resultant of the two vectors. If R makes an angle (theta)/(2) with A, then

Let there be n resistors R_(1) . . . R_(n) with R_(max)=max(R_(1) . . . . R_(n)) and R_("min")=min{R_(1) . . . R_(n)} . Show that when they are connected in parallel the resultant resistance R_(p)=R_("min") and when they are connected in series, the resultant resistance R_(S) gt R_(max) . Interpret the result physically.

Show that 16R^(2)r r_(1) r _(2) r_(3)=a^(2) b ^(2) c ^(2)

A and B are two points on the parabola y^(2) = 4ax with vertex O. if OA is perpendicular to OB and they have lengths r_(1) and r_(2) respectively, then the valye of (r_(1)^(4//3)r_(2)^(4//3))/(r_(1)^(2//3)+r_(2)^(2//3)) is

In an equilateral triangle with usual notations the value of (27r^(2)R)/(r_(1)r_(2)r_(3)) is equal to

In DeltaABC , if r = 1, R = 3, and s = 5 , then the value of a^(2) + b^(2) + c^(2) is _____

If r,r_(1) ,r_(2), r_(3) have their usual meanings , the value of 1/(r_(1))+1/(r_(2))+1/(r_(3)) , is