What is the magnitude fad of the downward force on section a

▼ Part A onstants What is the magnitude Fad of the downward force on section a? Express your answer in terms of the tension T Learning Goal To understand the concept of tension and the relationship between tension and force This problem introduces the concept of tension. The example is a rope, oriented vertically, that is being pulled from both ends. (Figure 1)Let Fu and Fd (with u for up and d for down) represent the magnitude of the forces acting on the top and bottom of the rope, respectively Assume that the rope is massless, so that its weight is negligible compared with the tension. (This is not a ridiculous approximation--modern rope materials such as Kevlar can carry tensions thousands of times greater than the weight of tens of meters of such rope.) Fad Submit nswer Part B Consider the three sections of rope labeled a, b, and c in the figure What is the magnitude of the upward force on section b? Express your answer in terms of the tension T At point 1, a downward force of magnitude Fad acts on section a At point 1, an upward force of magnitude Fbu acts on section b At point 1, the tension in the rope is T1 At point 2, a downward force of magnitude Fbd acts on section b b11 Figure 1 of 1 Submit Request Answer Part C The magnitude of the upward force on c, Fcu, and the magnitude of the downward force on b Fbd, are equal because of which of Newtons laws? 1st 2nd 3rd Submit ns ▼ component A onstants What’s the magnitude craze associated with downward power on part a? Express your response with regards to the stress T training Goal to know the thought of stress as well as the commitment between stress and power this dilemma presents the thought of stress. The instance is a rope, focused vertically, that’s becoming taken from both finishes. (Figure 1)Let Fu and Fd (with u for up-and d for down) represent the magnitude associated with causes functioning on the very best and base associated with line, correspondingly believe the line is massless, in order that its fat is minimal compared to the strain. (this isn’t a ridiculous approximation–modern line products such Kevlar can hold tensions several thousand times higher than the extra weight of tens of yards of these line.) Fad publish nswer component B think about the three parts of line labeled a, b, and c into the figure what’s the magnitude associated with ascending power on part b? Express your response with regards to the stress T At point 1, a downward power of magnitude Fad functions on part a At point 1, an upward power of magnitude Fbu functions on part b At point 1, the strain into the line is T1 At point 2, a downward power of magnitude Fbd functions on part b b11 Figure 1 of just one publish Request Solution role C The magnitude associated with ascending power on c, Fcu, as well as the magnitude associated with downward power on b Fbd, tend to be equal considering which of Newton’s guidelines? first 2nd third publish ns

On part a, power information into the downward way and stress T, functions into the line in up way. For that reason, in balance the causes stabilize both, and equation is provided as: T1 = Fz F = 1 (B) On part b, power information into the ascending way. For that reason, in balance the causes stabilize both, and equation is provided as: Fox – Fxd = 0 Fox = Fzd = T Fort = (C) the causes tend to be equal due to the Newton’s 3rd legislation which states that for almost any activity there is certainly equal and opposing effect. For that reason, the perfect choice is (3).
▼ Part A onstants What is the magnitude Fad of the downward force on section a? Express your answer in terms of the tension T Learning Goal To understand the concept of tension and the relationship between tension and force This problem introduces the concept of tension. The example is a rope, oriented vertically, that is being pulled from both ends. (Figure 1)Let Fu and Fd (with u for up and d for down) represent the magnitude of the forces acting on the top and bottom of the rope, respectively Assume that the rope is massless, so that its weight is negligible compared with the tension. (This is not a ridiculous approximation--modern rope materials such as Kevlar can carry tensions thousands of times greater than the weight of tens of meters of such rope.) Fad Submit nswer Part B Consider the three sections of rope labeled a, b, and c in the figure What is the magnitude of the upward force on section b? Express your answer in terms of the tension T At point 1, a downward force of magnitude Fad acts on section a At point 1, an upward force of magnitude Fbu acts on section b At point 1, the tension in the rope is T1 At point 2, a downward force of magnitude Fbd acts on section b b11 Figure 1 of 1 Submit Request Answer Part C The magnitude of the upward force on c, Fcu, and the magnitude of the downward force on b Fbd, are equal because of which of Newtons laws? 1st 2nd 3rd Submit ns

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