5. A 5.0-kg glider and a 2.0-kg glider move together to the right at 4 m/s on a frictionless horizontal rail. A spring-loaded plunger between the two gliders suddenly releases, pushing them apart. After the plunger acts, the 5.0-kg glider is observed to be at rest. a. Find the 2.0-kg glider's final velocity (magnitude and direction). b. Is KE conserved in this "collision"? Why or why not? c. Find the impulse exerted on the 5.0-kg glider (magnitude and direction).
5. A 5.0-kg glider and a 2.0-kg glider move together to the right at 4 m/s on a frictionless horizontal rail. A spring-loaded plunger between the two gliders suddenly releases, pushing them apart. After the plunger acts, the 5.0-kg glider is observed to be at rest. a. Find the 2.0-kg glider's final velocity (magnitude and direction). b. Is KE conserved in this "collision"? Why or why not? c. Find the impulse exerted on the 5.0-kg glider (magnitude and direction).
Chapter2: The Kinetic Theory Of Gases
Section: Chapter Questions
Problem 81AP: One process for decaffeinating coffee uses carbon dioxide ( M=44.0 g/mol) at a molar density of...
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Question
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5. A 5.0-kg glider and a 2.0-kg glider move together to the right at 4 m/s on a frictionless
horizontal rail. A spring-loaded plunger between the two gliders suddenly releases, pushing
them apart. After the plunger acts, the 5.0-kg glider is observed to be at rest.
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M
K
cmd
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9
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a. Find the 2.0-kg glider's final velocity (magnitude and direction). nisto
b. Is KE conserved in this "collision"? Why or why not?
soiqqs
c. Find the impulse exerted on the 5.0-kg glider (magnitude and direction).
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Transcribed Image Text:ㄱ
ontrol
fore
ell
1/s
!
1
A
>
(m₂)
1
Z
block 2
I
option
2
2
2kg
W
S
X
#3
E
H
cmd
D
C
5kg
$
om/s
4
R
F
V
65⁰
%
after
T
G
B
Y
2kg
H
&
7
->
+ pos.
N
pl
+ m₂) V₁ = M₁ V₁ f
M₁ V₁ + M₂ V2 f
identica
U
donol Min
J
* CO
8
5. A 5.0-kg glider and a 2.0-kg glider move together to the right at 4 m/s on a frictionless
horizontal rail. A spring-loaded plunger between the two gliders suddenly releases, pushing
them apart. After the plunger acts, the 5.0-kg glider is observed to be at rest.
0
do you need to cal
M
K
cmd
(
9
bu
L
a. Find the 2.0-kg glider's final velocity (magnitude and direction). nisto
b. Is KE conserved in this "collision"? Why or why not?
soiqqs
c. Find the impulse exerted on the 5.0-kg glider (magnitude and direction).
O
L
)
O
I
option
P
f digilgon ai abnoooa, OE pearl gri
?
1
E
[
sive rol beads, and
ord
+ 11
A
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