Q3: A 200-pound object is to behung from the end of a rigid 8fthorizontal pole of negligibleweight, as shown in Figure below.The pole in attached to a wall by apivot and is supported by an 8ftcable that is attached to the wallat higher point. The tension onthis cable is given by the equation(T). Write a program to determinethe distance d in order tominimize tension on cable. Theprogram should calculate thetension at 0.1ft intervals fromd=1ft to 7ft and should locate theposition of that produce theminimum tensionW ic.lpCableT =dIp -dlk=8ftl3=8ftdw=2001b

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Q3: A 200-pound object is to be hung from the end of a rigid 8ft horizontal pole of negligible weight, as shown in Figure below. The pole in attached to a wall by a pivot and is supported by an 8ft cable that is attached to the wall at higher point. The tension on this cable is given by the equatior (T). Write a program to determine the distance d in order to minimize tension on cable. The program should calculate the tension at 0.1ft intervals from d=1ft to 7ft and should locate the position of that produce the minimum tension Cable W.ic.lp T = dIp -d² l=8ft Ip=8ft w=200Ib

Q3: A 200-pound object is to be hung from the end of a rigid 8ft horizontal pole of negligible weight, as shown in Figure below. The pole in attached to a wall by a pivot and is supported by an 8ft cable that is attached to the wall at higher point. The tension on this cable is given by the equatior (T). Write a program to determine the distance d in order to minimize tension on cable. The program should calculate the tension at 0.1ft intervals from d=1ft to 7ft and should locate the position of that produce the minimum tension Cable W.ic.lp T = dIp -d² l=8ft Ip=8ft w=200Ib