... WS
1
O
A
O
B
O
C
O
D
O
E
2
O
A
O
B
O
C
O
D
O
E
3
O
A
O
B
O
C
O
D
O
E
4
O
A
O
B
O
C
O
D
O
E
5
O
A
O
B
O
C
O
D
O
E
6
O
A
O
B
O
C
O
D
O
E
7
O
A
O
B
O
C
O
D
O
E
8
O
A
O
B
O
C
O
D
O
E
9
O
A
O
B
O
C
O
D
O
E
10
O
A
O
B
O
C
O
D
O
E
11
O
A
O
B
O
C
O
D
O
E
12
O
A
O
B
O
C
O
D
O
E
13
O
A
O
B
O
C
O
D
O
E
14
O
A
O
B
O
C
O
D
O
E
15
O
A
O
B
O
C
O
D
O
E
16
O
A
O
B
O
C
O
D
O
E
17
O
A
O
B
O
C
O
D
O
E
18...
... the
same temperature.
II. Gravity stops heat from moving up
into A.
III. Heat flows from A to B.
(A) I only
(B) II only
(C) I and III only
(D) II and III only
(E) I, II, and III
26 . Look at the image ... power
output.
II. The PE in equals the KE out.
III. The KE in equals the work out.
(A) I only
(B) II only
(C) I and III only
(D) II and III only
(E) I, II, and III only
55. A do...
... 1. E
2. D
3. A
4. A
5. D
6. C
7. C
8. E
9. A
10. C
11. B
12. E
13. C
14. E
15. D
16. C
17. D
18. C
19. D
20 . B
21 . B
22 . A
23 . B
24 . A
25 . D
26 . C
27 . C
28 . E
29 . E
30. B
31. C
32. A
33. ... of the first condi-
tion of equilibrium.
Σ
Σ
F
FF
F
y table
table
=
==×
[]
=
0
21 1
22
N books
N
28 . 28 .
28 . 28 .
28 .
The corThe cor
The corThe cor
The cor
r...
... 1. B
2. E
3. D
4. D
5. B
6. A
7. C
8. E
9. A
10. D
11. C
12. A
13. A
14. B
15. D
16. E
17. D
18. E
19. A
20 . D
21 . B
22 . E
23 . A
24 . B
25 . A
26 . D
27 . B
28 . C
29 . A
30. C
31. C
32. A
33. ... Acceleration Velocity Increase
1 sec 9 .8 m/s 9 .8 m/s +9.8m/
2
ss
2 sec 9 .8 m/s 19.6 m/s +9.8m/s
3 sec 9 .8 m/s 29 .4 m/s +9.8m/s
2
2
44 sec 9 .8 m/s 39 .2...
... 1. A
2. E
3. C
4. E
5. A
6. C
7. E
8. A
9. B
10. B
11. D
12. E
13. A
14. C
15. A
16. B
17. E
18. D
19. A
20 . E
21 . C
22 . D
23 . E
24 . D
25 . E
26 . A
27 . A
28 . D
29 . C
30. C
31. A
32. A
33. ... melting the ice.
II. Condensation is occurring.
III. Phase change occurs.
(A) I only
(B) II only
(C) I and III only
(D) II and III only
(E) I, II, and III
65. A spr...
... 1. B
2. E
3. B
4. D
5. E
6. C
7. A
8. A
9. E
10. C
11. E
12. B
13. B
14. B
15. D
16. D
17. E
18. D
19. B
20 . E
21 . E
22 . C
23 . D
24 . A
25 . E
26 . E
27 . C
28 . D
29 . C
30. B
31. C
32. B
33. ... than 2. 4 m/s
2
.
(B) toward him at 2. 4 m/s
2
.
(C) downward at 2. 4 m/s
2
.
(D) greater than 2. 4 m/s
2
.
(E) none of these.
PHYSICS TEST
Peterson’s SAT...
... is 23 5.043 923 1
The mass of is 139.9
23 5
140
Uu
Ba 1105995
The mass of is 91. 926 1 5 28
92
u
Kr u
1
0
23 5
92
140
56
92
36
4
1
0
1 0 086 65 23 5 043 923 1 139 9
nU BaKrn
uu
+→ ++
+→ .110599 91 926 1 5 28 ... to E = mc
2
.
Subtracting we have:
23 6 0 525 9
23 5 87 140
181 19
.
() .
.
u
u
u
−
RADIOACTIVITY
Peterson’s SAT II Success: Physics
23 2
This provides an e...
... 5
Peterson’s SAT II Success: Physics
190
Solution
V
V
V
V
V
V
V
s
p
s
p
s
ps
p
s
s
=
=
=
=
N
N
N
N
turns
turns
()( )
()( )
,
80 00 900
30 000
24 00V
CHAPTER 5
Peterson’s SAT II Success: Physics
1 78
The ... two parallel equivalent values to the values of R
1
,
R
5,
and R
8,
yielding:
R
R
t
t
=++++
=
24 369
24
ΩΩΩΩΩ
Ω
2. 2.
2. 2.
2.
Use Ohm’s La Use Ohm’s La
Use Ohm...
... of
. 024 5m.
Stating the equations:
and
but
an
Vgd
Vad
VV
f
f
2
0
2
2
0
2
2
2
=
=−
=
dd
m/s m
2 . 024 5m
m/s
2
2 98 2
80 0
2
••
•−
=−
.
26 .26 .
26 .26 .
26 .
The corThe cor
The corThe cor
The cor
rr
rr
r
ect ... 1. C
2. B
3. E
4. B
5. B
6. E
7. B
8. E
9. A
10. A
11. C
12. D
13. C
14. B
15. C
16. D
17. B
18. C
19. D
20 . E
21 . E
22 . D
23 . D
24 ....