ð Isobaric process refers to a constant pressure on a PV graph where the y-axis remains unchanged.
ð Increasing the volume of a gas can be achieved by heating it over a fire, causing the gas molecules to move faster.
ð To counteract the higher speed of the gas molecules, the volume needs to be increased.
ð In isobaric processes, pressure remains constant while volume changes.
ð§ Instead of a flame, heat can be extracted from ice cubes to decrease volume.
ð The equation for isobaric processes involves the change in internal energy and the constant pressure.
ð Different types of processes in physics.
ðšðĶ Change in volume affects pressure in a work equation.
ð Isovolumetric process keeps volume constant.
ð In a scenario without expansion or compression, no work is done.
ð The equation for change in internal energy is 3/2 multiplied by the change in temperature.
ð In an isothermal process, the pressure and volume are inversely proportional and shown as an inverse curve on a PV graph.
ð Changing the temperature affects the graphs of pressure and volume.
ð In processes with constant temperature, internal energy remains unchanged.
ð Adiabatic processes involve no energy transfer.
ð Inverse curves have constant pressure times volume.
ð Volume is raised to the power of 5/3 in these processes.
âĐ Processes without flow of heat energy must occur quickly.
ðĨ Adiabatic process involves expanding the gas quickly before heat transfer.
ð Summary of what has been learned.
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