(The complete question is in the picture)Three masses, given by m1 =1.20 [g], m2 = 2.75 [g], and m3 = [4.50][g] are arrangedin a system shown. The first mass is on a plane inclined by some angle θ = 25.0◦, the second mass ison an elevated horizontal surface, and the third mass ison a second plane inclined by some angle ϕ = 65.0◦.Both inclined surfaces have coefficients of kinetic friction µ1 = 0.24, while the horizontal surface has coefficient µ2 = 0.45. Assuming that m3 moves downward,what is the acceleration of the system?A. -1.76 [m/s2]B. 1.87 [m/s2]C. 2.75 [m/s2]D. 4.41 [m/s2] . Slide-slide, choo choo! Three masses, given by mị =1.20 [g], m2 = 2.75 [g], and m3 = [4.50][g] are arrangedin a system shown. The first mass is on a plane in-clined by some angle 0 = 25.0°, the second mass ison an elevated horizontal surface, and the third mass ison a second plane inclined by some angle y = 65.0°.Both inclined surfaces have coefficients of kinetic fric-tion µ1 = 0.24, while the horizontal surface has coeffi-cient µ2 = 0.45. Assuming that m3 moves downward,what is the acceleration of the system?A. -1.76 [m/s²]B. 1.87 [m/s*]C. 2.75 [m/s²]D. 4.41 [m/s-]

Here, we draw the free body diagrams of all the masses and apply Newton's second law to get the…

Slide-slide, choo choo! Three masses, given by mị = 1.20 (g], m2 = 2.75 [g], and m3 = [4.50][g] are arranged in a system shown. The first mass is on a plane in- clined by some angle 0 = 25.0°, the second mass is on an elevated horizontal surface, and the third mass is on a second plane inclined by some angle p = 65.0°. %3D %3D Both inclined surfaces have coefficients of kinetic fric- tion µ1 = 0.24, while the horizontal surface has coeffi- cient µ2 = 0.45. Assuming that m3 moves downward, what is the acceleration of the system? %3D A. -1.76 [m/s²] С. 2.75 [m/s?] D. 4.41 [m/s²] В. 1.87 (m/s?]

Slide-slide, choo choo! Three masses, given by mị = 1.20 (g], m2 = 2.75 [g], and m3 = [4.50][g] are arranged in a system shown. The first mass is on a plane in- clined by some angle 0 = 25.0°, the second mass is on an elevated horizontal surface, and the third mass is on a second plane inclined by some angle p = 65.0°. %3D %3D Both inclined surfaces have coefficients of kinetic fric- tion µ1 = 0.24, while the horizontal surface has coeffi- cient µ2 = 0.45. Assuming that m3 moves downward, what is the acceleration of the system? %3D A. -1.76 [m/s²] С. 2.75 [m/s?] D. 4.41 [m/s²] В. 1.87 (m/s?]

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Question

(The complete question is in the picture)

Three masses, given by m1 =
1.20 [g], m2 = 2.75 [g], and m3 = [4.50][g] are arranged
in a system shown. The first mass is on a plane inclined by some angle θ = 25.0
◦
, the second mass is
on an elevated horizontal surface, and the third mass is
on a second plane inclined by some angle ϕ = 65.0
◦
.
Both inclined surfaces have coefficients of kinetic friction µ1 = 0.24, while the horizontal surface has coefficient µ2 = 0.45. Assuming that m3 moves downward,
what is the acceleration of the system?
A. -1.76 [m/s
2
]
B. 1.87 [m/s
2
]
C. 2.75 [m/s
2
]
D. 4.41 [m/s
2
]

. Slide-slide, choo choo! Three masses, given by mị =
1.20 [g], m2 = 2.75 [g], and m3 = [4.50][g] are arranged
in a system shown. The first mass is on a plane in-
clined by some angle 0 = 25.0°, the second mass is
on an elevated horizontal surface, and the third mass is
on a second plane inclined by some angle y = 65.0°.
Both inclined surfaces have coefficients of kinetic fric-
tion µ1 = 0.24, while the horizontal surface has coeffi-
cient µ2 = 0.45. Assuming that m3 moves downward,
what is the acceleration of the system?
A. -1.76 [m/s²]
B. 1.87 [m/s*]
C. 2.75 [m/s²]
D. 4.41 [m/s-]

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