A spring-loaded piston-cylinder device contains m= 1kg of carbon dioxide. Initially, the spring has no force on the piston and P₁ = 500kPa, T₁=150K, V₁ = 0.1m³.1Heat is transferred to the gas, causing the piston to rise and to compress the spring. At the state 2, T₂=900K, V₂=0.3m³. The gas is an ideal gas.2(1)How to determine the pressure P at the state 2?2O A.O B.OC.O D.P1, V1, T1P. =2V TV T1V T2V T1VV12V2T12TT121P₁P₁P₁P₁P2, V2, T2

Given:Intial state 1: P1=500 kPa, T1=150 K, V1=0.1 m3Final state 2:T2=900 K, V2=0.3 m3Find:The…

Answered: A spring-loaded piston-cylinder device…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

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A piston-cylinder device contains an ideal gas of nitrogen. At the initial state, the volume is V1= 1.00 m3, the pressure is p1= 400.00 kPa, the temperature is T1= 300.00 K. An electric heater within the device is turned on for a time of Δt = 5.00 min. The current is I = 3.00 A, and the source voltage is V = 120.00 V. During the heating process, the gas expands, and a heat loss of Qout = 2.80 kJ occurs. The gas constant is R = 0.297 kPa·m3/(kg·K), and the room temperature specific heat at constant pressure is cp =1.039 kJ/(kg·K). Calculate the electrical work done on the gas, Wele__________ (kJ)
Consider a tank containing gaseous Helium. It is perfectly insulated and rigid. There is a paddle wheel to stir the Helium, which is rated at 0.12. The paddle wheel is operated for 42 min. Determine the final equilibrium pressure of the He gas, in units of psia. The initial gas conditions are given in the table below: mass (Ibm) T (°F) p (psia) |1.3 68.1 43.5

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