Calculate the temperature of the Sun if ...

Calculate the temperature of the Sun if density Is `1.4 g cm^(-3)`, pressure is ` 1.4xx10^(9)` atmosphere and average molecular weight of gases in the Sun in ` 2g//"mole"`. `[GivenR=8.4 J mol^(-1)K^(-1)`]`

Text Solution

AI Generated Solution

To calculate the temperature of the Sun given the density, pressure, and average molecular weight of gases, we can use the ideal gas law in the form of \( PV = nRT \). Here’s a step-by-step solution: ### Step 1: Write down the given data - Density (\( \rho \)) = \( 1.4 \, \text{g/cm}^3 \) - Pressure (\( P \)) = \( 1.4 \times 10^9 \, \text{atm} \) - Average molecular weight (\( M_w \)) = \( 2 \, \text{g/mol} \) - Universal gas constant (\( R \)) = \( 8.4 \, \text{J/(mol K)} \) ...

Promotional Banner

Promotional Banner

Topper's Solved these Questions

GEOMETRICAL OPTICS
ALLEN|Exercise SOME WORKED OUT EXAMPLES|83 Videos
GEOMETRICAL OPTICS
ALLEN|Exercise EXERCISE -01|65 Videos
CURRENT ELECTRICITY
ALLEN|Exercise EX.II|66 Videos
GRAVITATION
ALLEN|Exercise EXERCISE 4|9 Videos

Similar Questions

Explore conceptually related problems

The density of a gas is 1.964 g/ dm^(-3) at 273 K and 76 cm Hg. Calculate the molecular weight of the gas.

The density of an ideal gas is 1.25xx10^(-3)g cm^(-3) at STP. Calculate the molecular weight of the gas.

Volume occupied by 1 mole water (density = 1 g cm^-3 ) is

If the diameter of the Sun is 1.4xx10^9 m and that of Earth is 1.275xx10^4 km .Compare the two.

The osmotic pressure of a solution (density is 1 g mL^(-1)) containing 3 g of glucose (molecular weight =180) in 60 g of water at 15^(@)C is

Calculate the pressure of a gas whose molar mass is 29.3 g mol^(-1) having density 1.29 kg m^(3) at 273 K temperature

Calculate molality of 1.2M H_(2)SO_(4) solution? If its density=1.4g//mL

Molarity of H_(2)SO_(4) is 18 M . Its density is 1.8 g//cm^(3) , hence molaity is :

An element with density 11.2 g cm^(-3) forms a f. c. c. lattice with edge length of 4xx10^(-8) cm. Calculate the atomic mass of the element. (Given : N_(A)= 6.022xx10^(23) mol^(-1)

DNA has density 1.1 g//mL . And its molecular weight is 6xx10^(3) g//"mol" . Average volume occupied by its single molecule will be :

ALLEN-GEOMETRICAL OPTICS-subjective

Calculate the temperature of the Sun if density Is 1.4 g cm^(-3), pres...
Text Solution
|
A prism of refractive index n(1) & another prism of reactive index n(2...
Text Solution
|
The XY plane is the boundary between two tranparednt media. Medium 1 w...
Text Solution
|
A quarter culinder fo radius R and refractive index 1.5 is placed o...
Text Solution
|
A convex lens of focal length 15cm and a concave mirror of focal lengt...
Text Solution
|
The refractive indices of the crown flass for the blue and red lights ...
Text Solution
|
In the figure, light is incident on a thin lens as shown. The radius o...
Text Solution
|
Figure shows an irregular block of material of refractive indec sqrt(2...
Text Solution
|
An object is approaching a convex lens of focal length 0.3m with a spe...
Text Solution
|
AB and CD are two slabs. The medium between the slabs has refractive i...
Text Solution
|
A ray of light is incident on a prism ABC of mu = sqrt(3) as shown in ...
Text Solution
|
The focal length of a thin biconvex lens is 20cm. When an object is mo...
Text Solution
|
Image of an object approaching a convex mirror of radius of curvature ...
Text Solution
|
Consider a concave mirror and convex lens (refractive index = 1.5 ) of...
Text Solution
|
A monochromatic beam of light is incided at 60^(@) in one face of an e...
Text Solution
|