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Two blocks each of mass m 3.37 kg are fastened to the top of an elevator...
Two blocks each of mass m = 3.49 kg are fastened to the top of an elevator as in the figure. (a) If the elevator has...
Two blocks each of mass m = 3.49
kg are fastened to the top of an elevator as in the figure.
(a) If the elevator has an upward acceleration a = 1.60 m/s2, find
the tensions T1 and T2 in the upper and lower strings.
T1 =_____ N
T2 =_____ N
(b) If the strings can withstand a maximum tension of 94.0 N, what
maximum acceleration can the elevator have before the upper string
breaks?
________ m/s2
please show all...
Two blocks, each of mass m = 3.65 kg are hung from the ceiling of an...
Two blocks, each of mass m = 3.65 kg are hung from the ceiling of an ascending elevator as in the figure below. If the strings can withstand a maximum tension of 89.1 N, what maximum acceleration can the elevator have before a string breaks?
T. T. 2 7. Two blocks, each with mass m, are hung from the ceiling of...
T. T. 2 7. Two blocks, each with mass m, are hung from the ceiling of an elevator, as shown. The elevator has upward acceleration a, and the strings have negligible mass. (a) Find the tensions T1 and T2 in the upper and lower strings. (b) Which string would break first if a is made sufficiently large? (c) What would the tensions be if the cable supporting the elevator broke?
Two blocks of mass m = 13.3 kg each are fastened to the ceiling of an elevator. The elevator accelerates upward at a =...
Two blocks of mass m = 13.3 kg each are fastened to the ceiling of an elevator. The elevator accelerates upward at a = 1.51 m/s2. Find the tension in the bottom rope? Find the tension in the top rope.
Two blocks of mass m = 14.7 kg each are fastened to the ceiling of an elevator..The elevator accelerates upward at a =...
Two blocks of mass m = 14.7 kg each are fastened to the ceiling of an elevator..The elevator accelerates upward at a = 1.62 m/s2. Find the tension in the bottom rope. Find the tension in the top rope.
Two blocks of mass m = 10.8 kg each are fastened to the ceiling of an elevator. The elevator accelerates upward at a...
Two blocks of mass m = 10.8 kg each are fastened to the
ceiling of an elevator.
The elevator accelerates upward at a = 2.00
m/s2. Find the tension in the bottom rope and
the top rope.
Two blocks are fastened to the ceiling of an elevator.
Two blocks are fastened to the ceiling of an elevator as in FigureP4.19. The elevator accelerates upward at 2.30 m/s2. The blocks both have a mass of12.5kg. Find the tension in each rope.top rope1_________. Nbottom rope___________ NFigure P4.19
Two blocks are fastened to the ceiling of an elevator. The elevator accelerates upward at 1.50 m/s2. The blocks both ha...
Two blocks are fastened to the ceiling of an elevator. The elevator accelerates upward at 1.50 m/s2. The blocks both have a mass of 12.5 kg. Find the tension in each rope. top rope N bottom rope N
Need assistance with the problem. Thanks! An elevator car has two equal masses attached to the...
Need assistance with the problem. Thanks!
An elevator car has two equal masses attached to the ceiling as shown. (Assume m = 2.80 kg.) m m (a) The elevator ascends with an acceleration of magnitude 1.30 m/s2. What are the tensions in the two strings? (Enter your answers in N.) T1 = z z (b) The maximum tension the strings can withstand is 68.9 N. What is the maximum acceleration of the elevator so that a string does not break?...
Show all work, neatly on worksheet. The only formula provided is wa-va-2a(r지). 1. A car is...
Show all work, neatly on worksheet. The only formula provided is wa-va-2a(r지). 1. A car is parked on a cliff overlooking the ocean on an incline that makes an angle of 22.0° below the horizontal. The negligent driver leaves the car in neutral, and the emergency brakes are defective The car rolls from rest down the incline with a constant acceleration of 3.52 m/s? for a distance of 50.0 m to the edge of the cliff, which is 25.0 m...
Two blocks each of mass m = 3.49
kg are fastened to the top of an elevator as in the figure.
(a) If the elevator has an upward acceleration a = 1.60 m/s2, find
the tensions T1 and T2 in the upper and lower strings.
T1 =_____ N
T2 =_____ N
(b) If the strings can withstand a maximum tension of 94.0 N, what
maximum acceleration can the elevator have before the upper string
breaks?
________ m/s2
please show all...
T. T. 2 7. Two blocks, each with mass m, are hung from the ceiling of an elevator, as shown. The elevator has upward acceleration a, and the strings have negligible mass. (a) Find the tensions T1 and T2 in the upper and lower strings. (b) Which string would break first if a is made sufficiently large? (c) What would the tensions be if the cable supporting the elevator broke?
Two blocks of mass m = 10.8 kg each are fastened to the
ceiling of an elevator.
The elevator accelerates upward at a = 2.00
m/s2. Find the tension in the bottom rope and
the top rope.
Two blocks are fastened to the ceiling of an elevator as in FigureP4.19. The elevator accelerates upward at 2.30 m/s2. The blocks both have a mass of12.5kg. Find the tension in each rope.top rope1_________. Nbottom rope___________ NFigure P4.19
Need assistance with the problem. Thanks!
An elevator car has two equal masses attached to the ceiling as shown. (Assume m = 2.80 kg.) m m (a) The elevator ascends with an acceleration of magnitude 1.30 m/s2. What are the tensions in the two strings? (Enter your answers in N.) T1 = z z (b) The maximum tension the strings can withstand is 68.9 N. What is the maximum acceleration of the elevator so that a string does not break?...
Show all work, neatly on worksheet. The only formula provided is wa-va-2a(r지). 1. A car is parked on a cliff overlooking the ocean on an incline that makes an angle of 22.0° below the horizontal. The negligent driver leaves the car in neutral, and the emergency brakes are defective The car rolls from rest down the incline with a constant acceleration of 3.52 m/s? for a distance of 50.0 m to the edge of the cliff, which is 25.0 m...
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