Scalar.
Yes, you can add a scalar to a vector by adding the scalar value to each component of the vector.
When multiplying a vector by a scalar, each component of the vector is multiplied by the scalar. This operation changes the magnitude of the vector but not its direction. Similarly, dividing a vector by a scalar involves dividing each component of the vector by the scalar.
No, time is not considered a vector in physics. It is a scalar quantity that represents the progression of events.
Yes, you can multiply a vector by a scalar. The scalar will multiply each component of the vector by the same value, resulting in a new vector with each component scaled by that value.
A vector. Acceleration is defined as change in velocity in a given time, in symbolsa = ( v - u ) / t(the bolded symbols represent vectors)t is a scalar so its inverse is also a scalar.( v - u ) is a vector soa = vector * scalar = a vector.Answer2:Acceleration like many quantities is a Quaternion, consisting of a scalar part and a vector part. a= mv2/r is a scalar acceleration and A=dV/dt is a vector acceleration as is cV/r = A.
Time is scalar
Scalar
"Time" is a scalar."Hangtime" is a myth.
No it's a scalar.
A scalar times a vector is a vector.
vector
For differentiation, you have to divide a vector by a scalar. Therefore, you should get a vector.
No, time is assumed to be a scalar.
Since you can represent that with a single number, it isn't a vector - just a scalar.
Yes, you can add a scalar to a vector by adding the scalar value to each component of the vector.
When multiplying a vector by a scalar, each component of the vector is multiplied by the scalar. This operation changes the magnitude of the vector but not its direction. Similarly, dividing a vector by a scalar involves dividing each component of the vector by the scalar.
No, time is not considered a vector in physics. It is a scalar quantity that represents the progression of events.