As student performs an experiment for determine of `g[=(4pi^(2)L)/(T^(2))]. L approx 1m`, and has commits an error of `Delta L` for `T` he tajes the teime of `n` osciollations wityh the stop watch of least count `Delta T`. For which of the following data the measurement of `g` will be most accurate?

A student performs an experiment for determination of g [ = ( 4 pi^(2) L)/(T^(2)) ] , L ~~ 1m , and he commits an error of Delta L . For T he takes the time of n oscillations with the stop watch of least count Delta T . For which of the following data , the measurement of g will be most accurate ?

A student performs an experiment for determination of g = (4pi^(2)l)/(T^(2)) l ~~ 1m and the commits an error of ''Deltal' For T he takes the time of n osciilations with the stop watch of least count Deltat For which of the following data the measurement of g will be most accurate ? (a) DeltaL = 0.5 DeltaL = 0.1, n = 20 (B) DeltaL = 0.5 Deltat = 0.1, n = 50 (C) DeltaL = 0.5, Deltat = 0.02 n =20 (D) DeltaL = 0.1 Deltat = 0.05 n =50 .

A student performs an experiment for determination of g = (4pi^(2) l)/(T^2) and he commits an error of Delta l . For that he takes the time of n oscillations with the stop watch of least count Delta T and the commits a human error of 0.1 sec. For which of he following data, the measurement of g will be most accurate?

A student performs an experiment an for determination of g(=(4pi^(2)l)/(T^(2))) . The error in length l is Deltal and in time T is DeltaT and n is number of times the reading is taken. The measurment of g is most accurate for

To estimate g (from g = 4 pi^(2)(L)/(T^(2)) ), error in measurement of L is +- 2% and error in measurement of Tis +- 3% The error in estimated g will be

The percentage error in determination fo g= 4pi^2(I)/(t^2), when I and t are measured with +- 1% and +- 2% errors is

A student measures the value of g with the help of a simple pendulum using the formula g = (4pi^(2)L)/(T^(2)) . He measures length L with a meter scale having least count 1 mm and finds it 98.0 cm . The time period is measured with the help of a watch of least count 0.1s . The time of 20 oscillations is found to be 40.4 s. The error Deltag in the measurment of g is (" in" m//s^(2)) .

The period of oscillation of a simple pendulum is given by T=2pisqrt((l)/(g)) where l is about 100 cm and is known to have 1 mm accuracy. The period is about 2 s. The time of 100 oscillation is measrued by a stop watch of least count 0.1 s. The percentage error is g is

The period of oscillation of a simple pendulum is T = 2 pi sqrt((L)/(g)) .L is about 10 cm and is known to 1mm accuracy . The period of oscillation is about 0.5 s . The time of 100 oscillation is measured with a wrist watch of 1 s resolution . What is the accuracy in the determination of g ?

Given that T stands for time and l stands for the length of simple pendulum . If g is the acceleration due to gravity , then which of the following statements about the relation T^(2) = ( l// g) is correct?