The three vectors not lying in a plane c...

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.

A

(a) Statement-1 is true , Statement-2 is true , Statvement -2 is correct explanation of Statement-1 .

B

(b) Statement-1 is true , statement -2 is true , statement -2 is not coerrecrt explanation of Statement-1.

C

(C ) Statement-1 is true , Statement-2 is false.

D

(d) Statement-1 is false , Statement-2 is true.

Text Solution

Verified by Experts

The correct Answer is:

A

Here , both statements are true and statement -2 is the correct explanationn of statement-1.

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Knowledge Check

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

A

scalar quantity

B

pseudo vector

C

unit vector

D

null vector

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

A

Parallel vectors which have the original vector as their resultant.

B

Mutually perpendicular vectors which have the original vector as their resultant.

C

Arbitrary vector which have the original vector as their resultant.

D

It is not possible to resolve a vector.

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

A

Can be zero

B

Cannot be zero

C

Lies in the plane containing `vecA+vecB`

D

Lies in the plane containing `vecC`

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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.

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