Mathematically, Boyle's law can be written as (constant `n,T`)
(i) `p prop (1)/(V)` , (ii) `V prop (1)/(p)`
(iii) `p = constant//V` ,(iv) `pV = Constant`

What type of curve are obatained when at constant temperature, we plot (i) P vs 1/V (ii) PV vs P (iii) V vs P

The behaviour of ideal gas is goverened by various gas laws which are described by mathematical statements as given below: ( i ) PV=k (constant) at constant n and T ( ii ) V//T=k_(2) (constant) at constant n and P ( iii ) V//n=k_(3) (constant) at constant T and P ( iv ) PV=nRT ( v ) P//T=k_(4) (constant) at constant n and V Answer the following Avogadro's law is represented by the expression

The behaviour of ideal gas is goverened by various gas laws which are described by mathematical statements as given below: ( i ) PV=k (constant) at constant n and T ( ii ) V//T=k_(2) (constant) at constant n and P ( iii ) V//n=k_(3) (constant) at constant T and P ( iv ) PV=nRT ( v ) P//T=k_(4) (constant) at constant n and V Answer the following The expression ( ii ) represents

The behaviour of ideal gas is goverened by various gas laws which are described by mathematical statements as given below: ( i ) PV=k (constant) at constant n and T ( ii ) V//T=k_(2) (constant) at constant n and P ( iii ) V//n=k_(3) (constant) at constant T and P ( iv ) PV=nRT ( v ) P//T=k_(4) (constant) at constant n and V Answer the following If we plot a graph between volume ( L ) and temperature ( ^(@)C ) by studying their variation for 2.0 g of certain ideal gas at 1 bar pressure, the graph obtained is a straight line which is

The behaviour of ideal gas is goverened by various gas laws which are described by mathematical statements as given below: ( i ) PV=k (constant) at constant n and T ( ii ) V//T=k_(2) (constant) at constant n and P ( iii ) V//n=k_(3) (constant) at constant T and P ( iv ) PV=nRT ( v ) P//T=k_(4) (constant) at constant n and V Answer the following A cylinder of 10 L capacity at 300 K containing the gas is used to fill balloons till finally the cylinder recorded a pressure of 10 m bar. The number of He atoms still present in the cylinder is

A spherical black body of radius r radiates power P , and its rate of cooling is R (i) P prop r (ii) P prop r^(2) (iii) R prop r^(2) (iv) R prop (1)/(r)

V = k((P)/(T))^(0.33) where k is constant. It is an,