A body travels uniformly a distance of `(13.8pm0.2)` m in a time `(4.0pm0.3)` S. The velocity of the body within error limit is

A body travels uniformly a distance of ( 13.8 +- 0.2) m in a time (4.0 +- 0.3) s . Find the velocity of the body within error limits and the percentage error.

A body travels uniformly a distance of (10.0 +- 0.5 m) in a time (2.0 +- 0.1) sec. The velocity of the body within error limits is :

A body travels unifromly a distance of (20.0 +- 0.2)m in time (4.0 +- 0.4)s . The velocity of the body is

A body travels uniformly a distance of (20.0+-0.2)m in time (4.0+-0.04)s. The velocity of the body is

A body travels uniformly a distance of (13.8+-0.2)m in a time (4.0+-0.3) see the velocity of body and/or percentage of error in velocity is:

A body travels uniformly a distance of (10.2pm0.4) m in a time interval (6.0pm0.2)s . The speed of the particle is best expressed as (in m//s^(-1) ).

The change in the velocity of a body is (12.5pm 0.2)m//s in a time (5.0pm0.3)s. Find the average acceleration of the body within error limits.

The average velocity of a body moving with uniform acceleration after travelling a distance of 3.06 m is 0.34 m s^(-1) . If the change in velocity of the body is 0.18 ms^(-1) during this time, its uniform acceleration is .

Two rods have lengths measured as (1.8 pm 0.2) m and (2.3 pm 0.1) m. Calculate their combined length with error limits.