The three vectors not lying in a plane can never add up to give a bull vector .
The three vectors not lying in a plane can not be represented by the three sedes of a traingel taken in the same order.

The sum of these three vectors is :

Assertion: The minimum number of vectors of unequal magnitude required to produce zero resultant is three. Reason: Three vectors of unequal magnitude which can be represented by the three sides of a triangle taken in order, produce zero resultant.

Can three vectors not in one phane giv e a zero resultant ? Can four vectors do ?

The sum of three different integers can never be zero.

Give a condition that three vectors vec a,vec b and vec c from the three sides of a triangle.What are the other possibilities?

A set of vectors taken in a given order gives a closed polygon. Then the resultant of these vectors is a

Read each statement below carefully and state with reasons, if it is true or false. Three vectors not lying in a plane can never add up to give a null vector.

Any vector in an arbitrary direction can always be replaced by two (or three)-

Under what condition, the three vectors (i) cannot giv zero resultant (ii) can give zero resultant ?

Two vectors vecA and vecB lie in a plane, another vector vecC lies outside this plane, then the resultant of these three vectors i.e. vecA+vecB+vecC