asked 158k views
3 votes
1. Work each exercise.

2. Find the dot letter for that answer.
3. Connect the dot letters in order.
Exercises
Solve for the indicated letter.
1. F=ma for a
H
2. A w for w
my² for v²
4. W=FS for F
3. F=
7. D=
5. E=m g h for g
6. E=mc2 for m
M for V
(h₁ +h₂) • h
2
8. A =
E
9. E=/R for R
10. P=/2R for R
11. P=/2R for /²
В.
a=
0.
• 1
m
for h
12. V=R²h for h
13. P= 2/+ 2w for w
14. C=
15. R =
16. h=
F
(F-32) for F
for /
PT
3P
W
for w
17. S = 2/[w+h] + 2wh for /
18. V = TR²h for R²
19. S= Vt+at² for a
20. L = 3Mp² for P²
21. F=mM for R²
R2
22. F=mM for M
R2
.X
. M
H
.Z
• V
Dot
Letter
AB
C
D
E
F
А
G
H
1
J
W
Z
K
L
M
N
O
P
Q
R
S
T
U
V
X
Y
For
m
PRT
P
12
3V
TR2
M
D
2(S-Vt)
t2
F
(h₁ +h₂)
/C+32
3h

D
M
(S2wh)
2(w + h)
2A
3V
ah
P
R
Answer
m
FM
mM
1
E
FR2
m
(P-21)
2
E
W
S
E WN
E
LQ
3M

1. Work each exercise. 2. Find the dot letter for that answer. 3. Connect the dot-example-1
asked
User Yzzlr
by
8.5k points

1 Answer

3 votes

Solved for all 22 indicated letters in the physics equations. Isolated each variable using algebraic manipulation. Substitute known values into the isolated equations to find the missing letter.


1. \(F = ma\) for \(a\): \(a = (F)/(m)\)


2. \(A = (1)/(2)wv^2\) for \(w\): \(w = (2Av^2)/(F)\)


3. \(F = (mv^2)/(r)\) for \(v^2\): \(v^2 = (Fr)/(m)\)


4. \(W = Fs\) for \(F\): \(F = (W)/(s)\)


5. \(E = mgh\) for \(g\): \(g = (E)/(mh)\)


6. \(E = mc^2\) for \(m\): \(m = (E)/(c^2)\)


7. \(D = (MV)/(V)\) for \(V\): \(V = (D)/(M)\)


8. \(A = ((h_1 + h_2)h)/(2)\) for \(h\): \(h = (2A)/(h_1 + h_2)\)


9. \(E = IR\) for \(R\): \(R = (E)/(I)\)


10. \(P = I^2R\) for \(R\): \(R = (P)/(I^2)\)


11. \(P = I^2R\) for \(l^2\): \(l^2 = (P)/(I^2R)\)


12. \(V = (\pi R^2h)/(3)\) for \(h\): \(h = (3V)/(\pi R^2)\)


13. \(P = 2l + 2w\) for \(w\): \(w = (P - 2l)/(2)\)


14. \(C = (5)/(9)(F - 32)\) for \(F\): \(F = (C * 9)/(5) + 32\)


15. \(R = (I)/(PT)\) for \(I\): \(I = (R * P * T)/(1)\)


16. \(h = (3P)/(w)\) for \(w\): \(w = (3P)/(h)\)


17. \(S = (2)/(w + h) + 2wh\) for \(w\): \(w = (2 - 2w^2 - 2h^2)/(w + h)\)


18. \(V = (\pi R^2h)/(3)\) for \(R^2\): \(R^2 = (3V)/(\pi h)\)


19. \(S = Vt + (1)/(2)at^2\) for \(a\): \(a = (2(S - Vt))/(t^2)\)


20. \(L = (3MP^2)/(Q)\) for \(P^2\): \(P^2 = (LQ)/(3M)\)


21. \(F = (mM)/(R^2)\) for \(R^2\): \(R^2 = (mM)/(F)\)


22. \(F = (mM)/(R^2)\) for \(M\): \(M = (FR^2)/(m)\)

answered
User Breda
by
8.0k points
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