In an experiment for determining the value of acceleration due to gravity `(g)` using a simpe pendulum , the following observations were recorded:
Length of the string `(l) = 98.0 cm`
Diameter of the bob `(d) = 2.56 cm`
Time for `10 oscillations (T) = 20.0 s`
Calculate the value of `g` with maximum permissible absolute error and the percentage relative error.

In an experiment to determine the value of acceleration due to gravity g using a simple pendulum , the measured value of lenth of the pendulum is 31.4 cm known to 1 mm accuracy and the time period for 100 oscillations of pendulum is 112.0 s known to 0.01 s accuracy . find the accuracy in determining the value of g.

In an experiment to determine the value of acceleration due to gravity g using a simple pendulum , the measured value of lenth of the pendulum is 31.4 cm known to 1 mm accuracy and the time period for 100 oscillations of pendulum is 112.0 s known to 0.01 s accuracy . find the accuracy in determining the value of g.

To find the value of 'g' by using a simple pendulum, the following observations were made: Length of the thread, I =(100+- 0.1)cm Time period of oscillation, T = (2+-0.1)s Calculate the maximum permissible in measurement of 'g' which quanitiy should be measured more accurately and why ?

In determination of value of acceleration due to gravity (g) by simple pendulum, the time period is measured by a topwatch (L.C. = 0.5 second) and length of the thread is measured with metre scale (L.C. 0.1 cm) and diametre of bob is measured with vernier callipers (L.C. = 0.1 cm). The following observations are recorded : Length of the thread =105.3 cm Diameter of the bob =2.45 cm Time period =2.07 s Number of oscillations =10 Calculate the value of g, estimate error and write the result in proper significant figures.

In an experiment of determine acceleration due to gravity by simple pendulum, a student commits 1% positive error in the measurement of length and 3% negative error in the time then % error in g will be