The Bernoulli's equation is given by `P+1/2 rho v^(2)+h rho g=k`. Where P= pressure, `rho`= density, v= speed, h=height of the liquid column, g= acceleration due to gravity and k is constant. The dimensional formula for k is same as that for:

If P _(0)= Pressure, n= Density, h=height, and g=accelaration due to gravity then the atmospheric pressure =

The van der waal's gas equation is (P+a/V^(2))(V-b)=RT , where P is pressure, V is molar volume and T is the temperature of the given sample of gas. R is called molar gas constant, a and b are called van der waal's constants. The dimensional formula for b is same as that for

The van der waal's gas equation is (P+a/V^(2))(V-b)=RT , where P is pressure, V is molar volume and T is the temperature of the given sample of gas. R is called molar gas constant, a and b are called van der waal's constants. The dimensional formula for a is same as that for

Let us consider an equation (1)/(2)= mv^(2)= mgh where m is the mass of the body, v its velocity, g is the acceleration due to gravity and it is the height. Check whether this equation is dimensionally correct.

The van der waal's gas equation is (P+a/V^(2))(V-b)=RT , where P is pressure, V is molar volume and T is the temperature of the given sample of gas. R is called molar gas constant, a and b are called van der waal's constants. The dimensonal formula of RT is same as that of

Obtain dimension of rho gv where, rho = density, g = acceleration, v = velocity

Let us consider an equation (1)/(2)mv^(2)=mgh Where m is the mass of the body. V its velocity , g is the acceleration due to gravity and h is the height . Check whether this equation is dimensionally correct.

The van der waal's gas equation is (P+a/V^(2))(V-b)=RT , where P is pressure, V is molar volume and T is the temperature of the given sample of gas. R is called molar gas constant, a and b are called van der waal's constants. The dimensional formula for (ab)/(RT) is

The equation of state of a real gas is given by (P+a/V^(2)) (V-b)=RT where P, V and T are pressure, volume and temperature resperature and R is the universal gas constant. The dimensions of the constant a in the above equation is

According to Maxwell - distribution law, the probability function representing the ratio of molecules at a particular velocity to the total number of molecules is given by f(v)=k_(1)sqrt(((m)/(2piKT^(2)))^3)4piv^(2)e^(-(mv^(2))/(2KT)) Where m is the mass of the molecule, v is the velocity of the molecule, T is the temperature k and k_(1) are constant. The dimensional formulae of k_(1) is