Given : `l_(i) = 44.2 pm = 0.1` and `l_(2) = 23.1 pm 0.1` the uncertainty in `l_(1) + l_(2)` is

If L_(1) = (2.02 +- 0.01)m and L_(2) = (1.02 +- 0.01)m then L_(1) + 2L_(2) is (in m)

The length of two rods are recorded as l_(1) = (25.2 pm 0.1) cm and l_(2) = (16.8 pm 0.1) cm . Find their combined length .

If L_(1) = (3.03 +- 0.02)m and L_(2) = (2.01 +- 0.02)m then L_(1) + 2L_(2) in (in m )

If l_(1) = (10.0 pm 0.1) cm and l_(2) = (9.0 pm 0.1) cm , find the their sum , difference and error in each .

The lengths of two rods are recorded as l_(1)=25.2pm0.1cm and l_(2)=16.8pm0.1cm . Find the sum of the lengths of the two rods with the limits of error.

Let y=l-z where l=2.0 pm 0.1, z=1.0 pm 0.1 then the vaule of y is given by

Two alternating current are given by l_(1)=l_(0)" sin "omega t and l l_(2)=l_(0) cos (omega +phi) The ratio of rms value is

Let L_(1) and L_(2) be the foollowing straight lines. L_(1): (x-1)/(1)=(y)/(-1)=(z-1)/(3) and L_(2): (x-1)/(-3)=(y)/(-1)=(z-1)/(1) Suppose the striight line L:(x-alpha)/(l)=(y-m)/(m)=(z-gamma)/(-2) lies in the plane containing L_(1) and L_(2) and passes throug the point of intersection of L_(1) and L_(2) if the L bisects the acute angle between the lines L_(1) and L_(2) , then which of the following statements is /are TRUE ?

Let lim_(x to 0) ("sin" 2X)/(tan ((x)/(2))) = L, and lim_(x to 0) (e^(2x) - 1)/(x) = L_(2) then the value of L_(1)L_(2) is

In resonance tube experiment , the velocity of sound is given by v = 2 f_(0) ( l_(2) - l_(1)) . We found l_(1)=25.0 cm and l_(2)=75.0 cm . If there is no error in frequency, what will be the maximum permissible errror in the speed of sound ? (Take f_(0) = 325 Hz )