If `vecP + vecQ = vecR` and `vecP - vecQ = vecS` , then `R^(2) + S^(2)` is equal to

if vecP +vecQ = vecP -vecQ , then

If vecpxxvecq=vecr and vecp.vecq=c , then vecq is

vecP, vecQ, vecR, vecS are vector of equal magnitude. If vecP + vecQ - vecR=0 angle between vecP and vecQ is theta_(1) . If vecP + vecQ - vecS =0 angle between vecP and vecS is theta_(2) . The ratio of theta_(1) to theta_(2) is

If vecP.vecQ=PQ then angle between vecP and vecQ is

If |vecP + vecQ| = |vecP -vecQ| the angle between vecP and vecQ is

If vectors 4vecp+vecq, 2 vecp-3vecq and 5vecp-3vecq, 5vecp+3vecq are a pair of mutually perpendicular vectors and if the angle between vecp and vecq is theta , then the value of sin^(2)theta is equal to

Let vecp, vecq, vecr, vecs are non - zero vectors in which no two of them are perpenedicular and no three of them are coplanar. If (vecpxxvecr).(vecpxxvecs)+(vecrxx vecp).(vecqxxvecs)=k[(vecpxxvecq).(vecsxxvecr)] , then the value of (k)/(2) is equal to

Given two orthogonal vectors vecA and vecB each of length unity. Let vecP be the vector satisfying the equation vecP xxvecB=vecA-vecP . then vecP is equal to

Given that vecP+vecQ = vecP-vecQ . This can be true when :

If vectors vecP, vecQ and vecR have magnitudes 5, 12 and 13 units and vecP + vecQ = vecR , the angle between vecQ and vecR is :