In a regular hexagon ABCDEF, `vec(AE)`

In a regular hexagon ABCDEF, vec(AB) +vec(AC)+vec(AD)+ vec(AE) + vec(AF)=k vec(AD) then k is equal to

In a regular hexagon ABCDEF, vec(AB)=a, vec(BC)=b and vec(CD) = c. Then, vec(AE) =

a and b form the consecutive sides of a regular hexagon ABCDEF.

A particle moves with constant speed v along a regular hexagon ABCDEF in the same order. Then the magnitude of the avergae velocity for its motion form A to

In a regular hexagon two vec(PQ)=vecA, vec(RP)=vecB . Express other vectors's in term of them :-

If vec(a) and vec(b) are the vectors determined by two adjacent sides of a regular hexagonn ABCDEF. What are the vectors determined by the other sides taken in order ?

If ABCDEF is a regular hexagon then vec(AD)+vec(EB)+vec(FC) equals :

Consider the regular hexagon ABCDEF with centre at O (origin). Five forces AB,AC,AD,AE,AF act at the vertex A of a regular hexagon ABCDEF. Then, their resultant is

ABCDEF is a regular hexagone. AB+AC+AD+AE+AF=lambda AD then lambda = ………….

In the given figure, ABCDEF is a regular hexagon, which vectors are: (i) Collinear (ii) Equal (iii) Coinitial (iv) Collinear but not equal.