|[veca.veca, veca.vecb, veca.vecc] , [ve...

`|[veca.veca, veca.vecb, veca.vecc] , [vecb.veca, vecb.vecb, vecb.vecc] , [vecc.veca, vecc.vecb, vecc.vecc]|=0` then the vectors `veca+vecb, vecb+vecc` and `vecc+veca` are

Similar Questions

Explore conceptually related problems

The vectors veca-vecb,vecb-vecc,vecc-veca are

Show that [veca vecb vecc]\^2=|(veca.veca,veca.vecb,veca.vecc),(vecb.veca,vecb.vecb,vecb.vecc),(vecc.veca,vecc.vecb,vecc.vecc)|

If |{:(veca,vecb,vecc),(veca.veca,veca.vecb,veca.vecc),(veca.vecc,vecb.vecc,veca.vecc)| where veca, vecb,vecc are coplanar then:

[ veca + vecb vecb + vecc vecc + veca ]=[ veca vecb vecc ] , then

If veca, vecb, vecc are three given non-coplanar vectors and any arbitrary vector vecr in space, where Delta_(1)=|{:(vecr.veca,vecb.veca,vecc.veca),(vecr.vecb,vecb.vecb,vecc.vecb),(vecr.vecc,vecb.vecc,vecc.vecc):}|,Delta_(2)=|{:(veca.veca,vecr.veca,vecc.veca),(veca.vecb,vecr.vecb,vecc.vecb),(veca.vecc,vecr.vec ,vecc.vecc):}| Delta_(3)=|{:(veca.veca,vecb.veca,vecr.veca),(veca.vecb,vecb.vecb,vecr.vecb),(veca.vecc,vecb.vecc,vecr.vecc):}|'Delta=|{:(veca.veca,vecb.veca,vecc.veca),(veca.vecb,vecb.vecb,vecc.vecb),(veca.vecc,vecb.vecc,vecc.vecc):}|, "then prove that " vecr=(Delta_(1))/Deltaveca+(Delta_(2))/Deltavecb+(Delta_(3))/Deltavecc

`|[veca.veca, veca.vecb, veca.vecc] , [vecb.veca, vecb.vecb, vecb.vecc] , [vecc.veca, vecc.vecb, vecc.vecc]|=0` then the vectors `veca+vecb, vecb+vecc` and `vecc+veca` are

Similar Questions

Recommended Questions