Graphs between pressure and volume are plotted at different temperatures. Which of the following isotherms represents Boyle?? law as $PV $ = constant? $\left(T_{1} T_{2} T_{3}\right)$ undefined

Question

Graphs between pressure and volume are plotted at different temperatures. Which of the following isotherms represents Boyle?? law as $PV $ = constant? $\left(T_{1} >T_{2} >T_{3}\right)$ undefined

cdquestions Admin · Accepted Answer

Byles Law : It states that pressure of a given mass of an ideal gas is inversely proportional at a constant temperature. $PV = nRT \longrightarrow$ constant $PV = K$ $P = K \left(\frac{1}{ V }\right)$ $PV =\frac{K}{P}(P)$ $\log P =-\log V +\log K$

Answer

Only (ii) is correct representation of Boyle?? law.

Answer

Only (iv) is correct representation of Boyle?? law.

Answer

All are correct representations of Boyle?? law.

Answer

None of these representations is correct for Boyle?? law.

Graphs between pressure and volume are plotted at different temperatures. Which of the following isotherms represents Boyle?? law as $PV $= constant? $\left(T_{1} >T_{2} >T_{3}\right)$
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The Correct Option is C

Solution and Explanation

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Notes on States of matter

Concepts Used:

States of Matter

There are three States of Matter:

Solid State:

Liquid State:

Gaseous State:

Graphs between pressure and volume are plotted at different temperatures. Which of the following isotherms represents Boyle?? law as $PV $= constant? $\left(T_{1} >T_{2} >T_{3}\right)$ undefined