An unknown mass is hanging by a cable which is held by two ropes anchored to the roof at angles 60° and 40° that keep the mass at rest as shown in the figure. If the maximum tension either of the ropes can hold without breaking is 5000 N, determine the maximum value of the hanging mass that these ropes can safely support. You may consider the ropes and cable to be massless
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An unknown mass is hanging by a cable which is held by two ropes
anchored to...
60° 40° An unknown mass is hanging by a cable which is held by two ropes...
60° 40° An unknown mass is hanging by a cable which is held by two ropes anchored to the roof at angles 60° and 40° that keep the mass at rest as shown in the figure. If the maximum tension either of the ropes can hold without breaking is 5000 N, determine the maximum value of the hanging mass that these ropes can safely support. You may consider the ropes and cable to be massless.
Hanging weight
Two ropes are connected to a steel cable that supports a hanging weight as shown in the figure.1) Draw a free-body diagram showing all of the forces acting at the knot that connects the two ropes to the steel cable.Draw the force vectors with their tails at the knot. The orientation of your vectors will be graded. The exact length of your vectors will not be graded but the relative length of one to the other will be graded.2) Based...
DANGEROUSS QUESTION
Two ropes are connected to a steel cable that supports a hanging weight (Fig. P5.61). (a) Draw a free-body diagram showing all of the forces acting at the knot that connects the two ropes to the steel cable. Based on your diagram, which of the two ropes will have the greater tension? (b) If the maximum tension either rope can sustain without breaking is 5000 N, determine the maximum value of the hanging weight that these ropes can safely support....
1. The three ropes in the figure are tied to a small, very light ring. Two...
1. The three ropes in the figure are tied to a small, very light
ring. Two of the ropes are anchored to walls at right angles, and
the third rope pulls as shown. What are T1and T2, the magnitudes of
the tension forces in the first two ropes?
A. T1=
B T2=
3. The two angled ropes used to support the crate in the figure
below can withstand a maximum tension of 1700N before they
break.
A. What is the...
A 380-N, uniform, 1.25-m bar is suspended horizontally by two vertical cables at each end. Cable...
A 380-N, uniform, 1.25-m bar is suspended horizontally by two vertical cables at each end. Cable A can support a maximum tension of 512.0 N without breaking, and cable B can support up to 443.0 N. You want to place a small weight on this bar. What is the heaviest weight you can put on without breaking either cable? Where should you put this weight?
A 352-N, uniform, 1.68-m bar is suspended horizontally by two vertical cables at each end. Cable...
A 352-N, uniform, 1.68-m bar is suspended horizontally by two vertical cables at each end. Cable A can support a maximum tension of 516.0 N without breaking, and cable B can support up to 434.0 N . You want to place a small weight on this bar Part A What is the heaviest weight you can put on without breaking either cable? Part B Where should you put this weight?
A 358-N, uniform, 1.44-m bar is suspended horizontally by two vertical cables at each end. Cable...
A 358-N, uniform, 1.44-m bar is suspended horizontally by two vertical cables at each end. Cable A can support a maximum tension of 459.0 N without breaking, and cable B can support up to 439.0 N . You want to place a small weight on this bar. A) What is the heaviest weight you can put on without breaking either cable? w=_____N B) Where should you put this weight? d=______m from the cable A
A 397-N, uniform, 1.32-m bar is suspended horizontally by two vertical cables at each end. Cable...
A 397-N, uniform, 1.32-m bar is suspended horizontally by two vertical cables at each end. Cable A can support a maximum tension of 510.0 N without breaking, and cable B can support up to 413.0 N . You want to place a small weight on this bar. Part APart complete What is the heaviest weight you can put on without breaking either cable? Part B Where should you put this weight, what is d?
3. A Hanging Fish A fish is suspended by a string held by a fastener at...
3. A Hanging Fish A fish is suspended by a string held by a fastener at point B. This fastener is attached to two other strings (A and C). String A will be pulled loose from the wall if its tension exceeds 10 N. You may assume the strings are all massless. A. Consider the fish, the string it is hanging from, and the fastener as a single object (O), and draw and label a free-body diagram for this object....
A 338-N, uniform, 1.62-m bar is suspended horizontally by two vertical cables at each end. Cable...
A 338-N, uniform, 1.62-m bar is suspended horizontally by two vertical cables at each end. Cable A can support a maximum tension of 549.0 N without breaking, and cable B can support up to 417.0 N . You want to place a small weight on this bar. Here is what I have so far... Part A What is the heaviest weight you can put on without breaking either cable? w = 628 N <--- Correct Correct Part B Where should...
60° 40° An unknown mass is hanging by a cable which is held by two ropes anchored to the roof at angles 60° and 40° that keep the mass at rest as shown in the figure. If the maximum tension either of the ropes can hold without breaking is 5000 N, determine the maximum value of the hanging mass that these ropes can safely support. You may consider the ropes and cable to be massless.
1. The three ropes in the figure are tied to a small, very light
ring. Two of the ropes are anchored to walls at right angles, and
the third rope pulls as shown. What are T1and T2, the magnitudes of
the tension forces in the first two ropes?
A. T1=
B T2=
3. The two angled ropes used to support the crate in the figure
below can withstand a maximum tension of 1700N before they
break.
A. What is the...
3. A Hanging Fish A fish is suspended by a string held by a fastener at point B. This fastener is attached to two other strings (A and C). String A will be pulled loose from the wall if its tension exceeds 10 N. You may assume the strings are all massless. A. Consider the fish, the string it is hanging from, and the fastener as a single object (O), and draw and label a free-body diagram for this object....
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