massless string ov 2.0 kg kg weight. The pi a. What is the to 2.0 m Mk =0.20 20° Mk =0.10 20° L place, so that b. If the box is t FIGURE P7.33 FIGURE P7.34 c. What is the t 41. || The 1.0 kg 34. The two blocks in FIGURE P7.34 are sliding down the incline. What is the tension in the massless string? 35. I| The coefficient of static friction is 0.60 between the two FIGURE P7.41 a string to a The book is g. blocks in FIGURE P7.35. The coefficient of kinetic friction be- slope and rele tween the lower block and the floor is 0.20. Force F causes both blocks to cross a distance of 5.0 m, starting from rest. Whạt is of 3.0 m/s. of friction Mx = 0.20. a. How far do the least amount of time in which this motion can be completed without the top block sliding on the lower block? b. At the his book sticl Massless string it slide ba 42. I The 200 200-m-high its speed by L82 of the hill. so 4.0 kg Massless, fric- Jasioil aT.tionless pulley mo terweight a 3.0 kg a. How I does th oeie FIGURE P7.36 W scend a FIGURE P7.35 b. One da

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massless string ov
2.0 kg
kg weight. The pi
a. What is the to
2.0 m
Mk =0.20
20°
Mk =0.10
20° L
place, so that
b. If the box is t
FIGURE P7.33
FIGURE P7.34
c. What is the t
41. || The 1.0 kg
34. The two blocks in FIGURE P7.34 are sliding down the incline.
What is the tension in the massless string?
35. I| The coefficient of static friction is 0.60 between the two
FIGURE P7.41
a string to a
The book is g.
blocks in FIGURE P7.35. The coefficient of kinetic friction be-
slope and rele
tween the lower block and the floor is 0.20. Force F causes both
blocks to cross a distance of 5.0 m, starting from rest. Whạt is
of 3.0 m/s.
of friction
Mx = 0.20.
a. How far do
the least amount of time in which this motion can be completed
without the top block sliding on the lower block?
b. At the his
book sticl
Massless string
it slide ba
42. I The 200
200-m-high
its speed by
L82
of the hill.
so 4.0 kg
Massless, fric-
Jasioil
aT.tionless pulley
mo
terweight a
3.0 kg
a. How I
does th
oeie
FIGURE P7.36 W
scend a
FIGURE P7.35
b. One da
Transcribed Image Text:massless string ov 2.0 kg kg weight. The pi a. What is the to 2.0 m Mk =0.20 20° Mk =0.10 20° L place, so that b. If the box is t FIGURE P7.33 FIGURE P7.34 c. What is the t 41. || The 1.0 kg 34. The two blocks in FIGURE P7.34 are sliding down the incline. What is the tension in the massless string? 35. I| The coefficient of static friction is 0.60 between the two FIGURE P7.41 a string to a The book is g. blocks in FIGURE P7.35. The coefficient of kinetic friction be- slope and rele tween the lower block and the floor is 0.20. Force F causes both blocks to cross a distance of 5.0 m, starting from rest. Whạt is of 3.0 m/s. of friction Mx = 0.20. a. How far do the least amount of time in which this motion can be completed without the top block sliding on the lower block? b. At the his book sticl Massless string it slide ba 42. I The 200 200-m-high its speed by L82 of the hill. so 4.0 kg Massless, fric- Jasioil aT.tionless pulley mo terweight a 3.0 kg a. How I does th oeie FIGURE P7.36 W scend a FIGURE P7.35 b. One da
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