Power Machines N5 Formula Sheet PDF

Title	Power Machines N5 Formula Sheet
Author	Man Made
Course	Electro Techniques
Institution	Damelin
Pages	3
File Size	171.9 KB
File Type	PDF
Total Downloads	11
Total Views	179

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Summary

Power Machines N5 Formula Sheet...

Description

(8190035)

-1-

T1340(E)(A11)T

POWER MACHINES N5 FORMULA SHEET

1.

Q  W  U

2.

U  mC T

3.

Q  mC T

4.

Q  mC pT

5.

Q  P1V1 ln

17.

V2 V1

T2  P2    T1  P1 

n 1 n

 1  P2    

18.

T2  T1  P1 

19.

h  h f  h fg

20.

h  hg  C p T

V   1 V2

 1

 T V  S  mC ln 2  R ln 2  V1  T1 

21.

h  h f  hfg  hg

7.

W  P1V

22.

Vsup 

8.

W  P1V1 ln

23.



Vm Vg

24.



M M m

25.

U = H - PV

9.

W 

P1V1  P2V2 n 1

P1V1  P2 V2  1

10.

W

11.

R  C p  C

12.



26.

Cp C

n 1

V    1   V2 

6.

V2 V1

  

n  1  hsup  1 941    P n  

1 2 C1  Q  2 1 gZ 2  U 2  P2V 2  C 22  W 2 gZ1  U 1  P1V1 



13.

P1V1 P2V2  T1 T2

14.

PV = mRT

15.

P1V1  P2V2

16.

P1V1n  P2V2n

27.



m s ( h2  h1 ) 

m  CV 

28.

EE 

m s(h2  h1) 

m  2 257 29.

p  (Bm  M m )

101,325 760

-2-

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(8190035)

30.

-2-

m

100 23

T(E)(A11)T

 8  C 3  8 H 2  S  O2   

31.

y y  Cx H y   x  O2  xCO2  H 2O 4 2 

32.

O  . .  (CVC .C )  CVH 2  H 2  2 H .C V 8 

33.

L.C.V .  H .C .V .  h fg (9H 2 )

34.

H. C.V . 

35.

 n   W  P1V e   n  1

36.

1   1   n Vc  P2 Ve     1  1     (r p) n c  .100  1  Vs Vs   P1    

37.

 

38.

Fc  m (C fe  C fi )

39.

P  mU [Cwi  (C we )]

40.



41.

U = DN

42.

mV  AC

43.

(m  M ) g  m 2h

44.

Vs 

   (CVs .S ) 

(mw  me ) C p T mf n 1 n 1           n n   P2 n   P2     1  1  mRT1    P     n  1   P1     1     

V .100 Vs 



2U [C wi  (C we )] .100 Cai2





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4

D2L

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(8190035)

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45.

θ1  tc  twi

46.

θ 2  tc  two

47.

Log.temp.d iff. 

48.

P  Piso  P1 V1 n  2   P1 

49.

 n Pact  P1 V1   n 1 

50.

Niso 

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θ1  θ2 θ n 1 θ2

Piso  100 Pact

 P2     P1 

n 1 n

  1 

T(E)(A11)T...