A spring-loaded piston-cylinder device contains of m=1kg carbon dioxide. Initially, the spring has no force on the piston and P₁=500kPa, T₁=150K, V₁=0.1m³. Heat is transferred to the gas, causing the piston to rise and to compress the spring. At the state 2, T₁=900K, V₂=0.3m³. The gas is an ideal gas. 2 (3) How to calculate the boundary work against piston W OAW =P₁. (V₂+V₁₂) 1 P1, V1, T1 OB. W b-p O D. W = P..V. b-p 1 2 OC. Wb_p=P₁ (V₂-V₂) Vb-p=P₁• (V₁-V₁) 1 1 P2, V2, T2 .?
A spring-loaded piston-cylinder device contains of m=1kg carbon dioxide. Initially, the spring has no force on the piston and P₁=500kPa, T₁=150K, V₁=0.1m³. Heat is transferred to the gas, causing the piston to rise and to compress the spring. At the state 2, T₁=900K, V₂=0.3m³. The gas is an ideal gas. 2 (3) How to calculate the boundary work against piston W OAW =P₁. (V₂+V₁₂) 1 P1, V1, T1 OB. W b-p O D. W = P..V. b-p 1 2 OC. Wb_p=P₁ (V₂-V₂) Vb-p=P₁• (V₁-V₁) 1 1 P2, V2, T2 .?
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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A spring-loaded piston-cylinder device contains of carbon dioxide. Initially, the spring has no force on the piston and , , . Heat is transferred to the gas, causing the piston to rise and to compress the spring. At the state 2, , . The gas is an ideal gas.
(3)How to calculate the boundary work against piston . ?
A. B. C. D.
Transcribed Image Text:1
A spring-loaded piston-cylinder device contains of m= 1kg carbon dioxide. Initially, the spring has no force on the piston and P₁ = 500kPa,
T₁=150K, V₁ = 0.1m³. Heat is transferred to the gas, causing the piston to rise and to compress the spring. At the state 2, T₂=900K,
V₁=0.3m ³. The gas is an ideal gas.
2
(3) How to calculate the boundary work against piston W
b-p
OA. W
Wb=p=P₁• (V₂+V₂)
OB. W
P1, V1, T1
O D. W
b-p
= P_.V_
1 2
OC.W. = P₁. (V₂-V₁₂)
b-p
b-p=P₁ (V₁-V₁)
1
1
P2, V2, T2
.?
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