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Make use of the kinetic theory of gases to derive Boyle’s law. Ans: Boyle’s law asserts that, the volume of a given amount of gas is inversely proportional to the pressure P, i.e., PV = constant, when the temperature is stable. The kinetic theory of gases predicts the pressure that a gas will exert. P = Pressure.
Important Questions for CBSE Class 11 Physics Chapter 13 – Kinetic Theory solved by our expert teachers for academic year 2022-23. These solutions are compliant with the latest edition books, CBSE syllabus and NCERT guidelines. Download PDFs for free at CoolGyan.Org.
Derive the Boyle's law using kinetic theory of gases? Ans: With the temperature constant, Boyle's law states that the volume of a given quantity of gas is inversely proportional to the pressure P, i.e. PV = constant .
27 Ιαν 2024 · The kinetic Theory deals With the behaviour of an ideal gas on basis of fact that gas consist of moving molecules & Atoms. Kinetic theory also describe Properties such as Temperature, Thermal conductivity.
The kinetic theory of gases explains the three macroscopic properties of a gas in terms of the microscopic nature of atoms and molecules making up the gas. Usually, the physical properties of solids and liquids can be described by their size, shape, mass, volume, etc.
Explain the concept of the kinetic theory of gases covered in Chapter 13 of NCERT Solutions for Class 11 Physics. The kinetic theory of gases is a theoretical model that describes the molecular composition of the gas in terms of a large number of submicroscopic particles, which include atoms and molecules.
Question 13. 4. An oxygen cylinder of volume 30 Hire has an initial gauge pressure of 15 atmosphere and a temperature of 27 °C. After some oxygen is withdrawn from the cylinder, the gauge pressure drops to 11 atmosphere and its temperature drops to 17 °C.
