Statement-I : If the initial and final positions coincide, the displacement is a null vector.
Statement-II : A physical quantity can not be called a vector, if its magnitude is zero.

Statement-I : A physical quantity can be regarded as a vector, if magnitude as well as direction is associated with it. Statement-II : A physical quantity can be regarded as a scalar quantity, if it is associated with magnitude only.

Which of type of is used in following statements p : A physical quantity is scalar or vector q : A number is multiple of 5 or 25

Assertion: Distance is a actual length of the path but displacement is a shortest distance between initial and final position. Reason: Distance is a scalar quantity and it is always positive but displacement is a vector quantity. It may be positive, negative or zero.

(A): Electric current density is a vector (R): A physical quantity having magnitude and direction should be always a vector.

Statement-I : When velocity of a particle is zero then acceleration of particle is zero. Statement-II : Acceleration is equal to rate of change of velocity.

Assertion : A physical quantity can be regarded as a vector, if magnitude as well as direction is associated with it. Reason: : A physical quantity can be regarded as a scalar quantity, if it is associated with magnitude only.

Can we have physical quantities having magnitude and direction which are not vectors?

A quantity has magnitude and direction .can you call it a vector ?

Statement 1: Unit vector has a unit though its magnitude is one and Statement 2: Unit vector is obtained by dividing a vector by its own magnituded.

The acceleration vector of a particle in uniform circular motion averaged over the cycle is a null vector. This statement is