11
4 2014
Versin slo eje integrador_Aconcagua
11
3
30
- 2 - 20
1.
2.
3. (
)
4.
5.
6.
7.
8.
Versin slo eje integrador_Aconcagua
11
3
30
- 3 - 20
1. 3
2.
30
3. ()
4. (Code)
5.
6.
:
1 a b c d
7.
:
1 a b c d
A D
8.
9. :
a. : +1
b. : -0.25
c. : 0.0
Versin slo eje integrador_Aconcagua
11
3
30
- 4 - 20
(Aconcagua Mountain)
2 6962
6930
1
1. 37
Versin slo eje integrador_Aconcagua
11
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30
- 5 - 20
1.
2.
3.
4.
5.
a. 1, 2 4
b. 2, 3 4
c. 1, 3 5
d. 2, 3 5
2.
( )
a.
b.
c.
d.
Versin slo eje integrador_Aconcagua
11
3
30
- 6 - 20
3. (O2)
20.9 % v/v (2O
p ) 21.2 kPa
O2
2
2
6962 ( 7000
)2O
p
a. 44.00 kPa
b. 9.33 kPa
c. 21.00 kPa
d. 0.44 kPa
Versin slo eje integrador_Aconcagua
11
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4. 2
a. (quadratic function)
b. (exponential function)
c. (linear function)
d. (trigonometric function)
5. (3000 m ; 70 %)
2
a.
b.
c.
d.
6. (
2Op )
a.
b. c. d.
Versin slo eje integrador_Aconcagua
11
3
30
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7. 3 O2
4500
a. 100%
b. 92%
c. 82%
d. 72%
Versin slo eje integrador_Aconcagua
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8.
a.
b. (Ca2+)
c. (Cl-), (K+), [(HCO3)
-] d.
9. (dissociation) Y2(g) 2Y(g)
80C 4.1 4.2
4.1 4.2
1 2
Versin slo eje integrador_Aconcagua
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4.2
a. Y
b.
c.
d.
(echo)
2
(dry ) 70.0 ms
10. 5 A B
344 ms-1
a. 24.1 m
b. 12.0 m
c. 241 m
d. 4.9 m
Figura N
5
Versin slo eje integrador_Aconcagua
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11.
(intensity)
P I r 24
PI
r
A B r 2
(I0) (
B )
a. I0/4
b. I0/2
c. I0
d. 2I0
12. )
)
B
A
Versin slo eje integrador_Aconcagua
11
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a.
B
b.
B
c.
B
d.
B
B
B
B
B
Versin slo eje integrador_Aconcagua
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13. 4 ()
2 141 () 2 146
a. (quaternary structure)
b. (tertiary structure)
c. (primary structure)
d. (secondary structure)
14.
(mutation) ()
( 7)
S (Hb S)
7
a. 50% 50%
b. 50% 50%
c. 25% 25% 50%
d. 25% 50% 25%
Versin slo eje integrador_Aconcagua
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- 14 - 20
15. Hb S
a.
b.
c.
d. /Hb S
16.
(arteriole)
1/5
a.
b.
c.
d.
17. pyrole 4 Fe2+ (ferrous ion) Fe (iron)
26 56
Fe
a. 26 26 30
b. 26 24 30
c. 26 24 24
d. 26 26 32
Versin slo eje integrador_Aconcagua
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30
- 15 - 20
18.
: E (V)
Fe2+ / Fe -0.44
Cu2+ / Cu +0.34
Zn2+ / Zn -0.76
Ag+ / Ag +0.80
a. Fe2+(aq) (Cu(s), Zn(s) Ag(s))
b. Fe2+(aq) Ag(s) Cu(s) Fe(s)
Zn2+(aq)
c. Fe(s) Ag1+(aq) Cu2+(aq) Fe2+(aq)
Zn(s)
d. Fe(s) Zn2+(aq)
19. (Atriplex lampa)
a.
b.
c.
d.
Versin slo eje integrador_Aconcagua
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- 16 - 20
20. Atriplex lampa
a.
b.
c.
d.
21.
a. (divergent)
b. (convergent)
c. (divergent)
d. (convergent)
22. A B
Versin slo eje integrador_Aconcagua
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A B
1 Mammalia (Vertebrata) A No excretory organs
2 Gastropoda (Mollusca) B Kidneys
3 Hexapoda (Arthropoda) C Malpighian tubules
4 Asteroidea
(Echinodermata)
D Nephridia
A B
a. 1-A; 2-B; 3-C; 4-D b. 1-B; 2-D; 3-C; 4-A c. 1-B; 2-A; 3-D; 4-C d. 1-C; 2-B; 3-D; 4-A
23. A 11 B 17
(ground state)
a. A: 1s2 2s2 3s3 3p4 B: 1s2 2s2 3s2 2p6 3p6
b. A: 1s2 2s2 2p6 3s1 B: 1s2 2s2 3s2 3p5
c. A: 1s2 2s2 3s3 3p4 B: 1s2 2s2 2p6 3s2 3p5
d. A: 1s2 2s2 2p6 3s1 B: 1s2 2s2 2p6 3s2 3p5
24.
a.
b.
c.
d.
Versin slo eje integrador_Aconcagua
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30
- 18 - 20
25. CO2 1 1 25C
CO2
a.
b. CO2
c. CO2
d.
26. 280C
1 g 0.39 g
0.61 g
a. (a solution)
b. (a heterogeneous mixture)
c. (a hydrated salt)
d. (an element)
Versin slo eje integrador_Aconcagua
11
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30
- 19 - 20
27.
a.
b. -
c. (London Forces)
d.
28. 2 P1 P2
4 ( 8) P1
P2 4
X X :
a. A
b. B
c. C
d. D
8
X. X. X.
X.
Versin slo eje integrador_Aconcagua
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30
- 20 - 20
29.
3 mm
25C 1 bar
a. (Oxygen isotope)
b. (Oxygen ion)
c. (Oxygen allotrope)
d. (Oxygen isomer)
30. 9
R a h
9
a. 12R
b. (5/6)R
c. R
d. (3/2)R