1. (10 pts) A uniform 30.0-kg scaffold of length 3.0 m is supported by two light cables, as shown in the figure. A painter A of mass "m" kg stands 0.5 m from the left end of the scaffold....
1. A uniform 40.0-kg scaffold of length 6.0 m is supported by two light cables, as shown below. An 80.0-kg painter stands 1.0 m from the right end of the scaffold, and his 2.5 kg painting equipment is 1.5 m from the left end. a) Draw an FBD of the scaffold and clearly label all the forces acting on the scaffold b) Summing the torques acting on the scaffold, find the tension in the right-hand cable. Summing the forces acting...
A uniform 50-kg scaffold of length 7.0 m is supported by two light cables, as shown below. A 58-kg painter stands 1.0 m from the left end of the scaffold, and his paint bucket is 1.5 m from the right end. If the tension in the left cable is twice that in the right cable, find the tensions in the cables and the mass of the bucket. Express all answers rounded to one decimal place.
d-f
Reasoning Problem 2. (28 pts) A uniform 35.0-kg aluminum platform of length 5.0 m is supported b two light cables, as shown below. An 7o.o-kg painter stands o.8 m from the left end of the scaffold, and his painting equipment is 1.o m from the right end. If the tension in the left cable is twice that in the right cable, find: d. the tensions in the cables (10 pts) e. the mass of the equipment.(10 pts) f. How...
A block having a mass of m = 14 kg is suspended via two cables as shown in the figure. The angles shown in the figure are as follows: α = 14° and β =37°. We will label the tension in Cable I as T1 and the tension in Cable 2 as T2. Part (a) Please use the interactive area below to draw the Free Body Diagram for the block. Part (b) Write an expression for the sum of forces in the...
1 pts Question 2 The figure shows a uniform, horizontal beam (length 10 m, mass 28 kg) that is pivoted at the wallI, with its far end supported by a cable that makes an angle of 51° with the horizontal. If a person (mass = 64 kg) stands 3 m from the pivot, what is the tension in the cable? 3.0 m 10.0 m
in). Consider the following diagram. There are two masses (i.e., mass mand mass M hanging in a system of strings: string A with tension Ta, string B with tension To, an string with tension Tc (Note: Acceleration due to gravity (9) - 10 m/s) M=10 kg m=20 kg a) Draw free-body diagram of mass m. (4 points) b) Considering the equilibrium state of mass m vertically (t.e. SF =0), find the tension Ta of string A. (4 points) c) Draw...
A worker stands a distance
d = 0.250 m
from the left end of a beam as shown in the figure. The beam is
supported by three ropes. Find the tension in each rope (in N).
Assume the beam is uniform, with length L = 2.00 m and
mass 34.0 kg, and the weight of the worker is 710 N. (Due to the
nature of this problem, do not use rounded intermediate values in
your calculations—including answers submitted in
WebAssign.)...
A worker stands a distance
d = 0.325 m
from the left end of a plank as shown in the figure. The plank
is supported by three cords. Find the tension in each cord (in N).
Assume the plank is uniform, with length L = 2.00 m and
mass 29.5 kg, and the weight of the worker is 720 N. (Due to the
nature of this problem, do not use rounded intermediate values in
your calculations—including answers submitted in
WebAssign.)...
As shown in the figure below, a stick of length = 0.395 m and mass m -0.240 kg is in contact with a rough floor at one end and a frictionless bowling ball (diameter d = 15.00 cm) at some other point such that the angle between the stick and the floor is 0 - 30°. Determine the following. 30.0 (a) magnitude of the force exerted on the stick by the bowling ball 1.66 X Since the stick is in...
please question a,b,c,d,e
(10%) Problem 2: A block having a mass of m= 12 kg is suspended via two cables as shown in the figure. The angles shown in the figure are as follows: a = 13° and B = 26°. We will label the tension in Cable 1 as T, and the tension in Cable 2 as 12. Cable 1 Cable 2 - Otheexpertta.com A 20% Part (a) From the images below, choose the correct free body diagram. Grade...