Assertion: Adding a scalar to a vector of the same dimensions is a meanigful algeraic operation.
Reason: The displacement can be added with distance.

A scalar quantity and a vector quantity haivng the same dimensions are

State with reasons, whether the following algebraic operations with scalar and vector physical quantities are meaningful: (i) Adding any two scalars (ii) Adding a scalar to a vector of the same dimensions (iii) Multiplying any vector by any scalar (iv) Multiplying any two scalars (v) Adding any two vectors

Give reason for the following. Displacement can become zero, but distance cannot

Assertion: Displacement of a body may be zero when distance travelled by it is not zero. Reason: The displacement is the longest distance between initial and final position.

Assertion Stress and modulus of elasticity have the same dimensions Reason Strain is dimensionless.

Assertion if two physical quantities have same dimension, then they can be certainly added or subtracted because Reason if the dimension of both the quantities are same then both the physical quantities should be similar .

Assertion: Both velocity and pseed have same dimesions. Reason: Velocity cannot be added to speed.

Assertion : L//R and CR both have same dimensions Reason L//R and CR both have dimensions of time

Distance is a scalar quantity. Displacement is a vector quqntity. The magnitude of displacement is always less than or equal to distance. For a moving body displacement can be zero but distance cannot be zero. Same concept is applicable regarding velocity and speed. Acceleration is the rate of change of velocity. If acceleration is constant, then equations of kinematics are applicable for one dimensional motion under the gravity in which air resistance is considered, then the value of acceleration depends on the density of medium. Each motion is measured with respect of frame of reference. Relative velocity may be greater // smaller to the individual velocities. A particle is moving along the path y=4x^(2) . The distance and displacement from x=1 to x=2 is (nearly) :-

Distance is a scalar quantity. Displacement is a vector quqntity. The magnitude of displacement is always less than or equal to distance. For a moving body displacement can be zero but distance cannot be zero. Same concept is applicable regarding velocity and speed. Acceleration is the rate of change of velocity. If acceleration is constant, then equations of kinematics are applicable for one dimensional motion under the gravity in which air resistance is considered, then the value of acceleration depends on the density of medium. Each motion is measured with respect of frame of reference. Relative velocity may be greater // smaller to the individual velocities. A particle moves from A to B. Then the ratio of distance to displacement is :-