Q3: Assume a transmitting antenna placed at AUK with a gain of 54 dB. The Pout of the transmitting antenna is 99 W. The signal is received by a satellite, that is 37.5X10°m away from earth, with a gain of 26 dB. The signal is then routed to a transponder (a wireless receiver/transmitter devise) which has the following characteristics: a noise temperature of 50 K, a bandwidth of 36 MHz, a gain of 110 dB. Answer the following questions: a) Calculate the maximum path loss at 6.1 GHz b) Calculate the power at the output port of the satellite antenna in dBW. c) Calculate the noise power at the transponder input in dBW d) Calculate the carrier power at the transponder output (in dBW and Watt)

2. The 60-lb collar A can slide on a frictionless vertical rod connected as shown to a 65-lb Counterweight C. Draw the free-body diagram needed to determine the value of h for which the system is in equilibrium. (15 pts.) 15 in.- A 60 th B C 65 lb

6-42. Determine the force in members BC, HC, and HG. State if these members are in tension or compression. 4 kN A 1.5 m 6 kN B H 1 m 1.5 m 12 kN C G 2 m 1.5 m Probs. 6-42/43 9 kN D 1m -1.5 m 6 kN E

1. For jib crane AB-shown in Figure 1 below, draw the free-body diagram of the jib crane AB, which is pin-connected at A and supported by member (link) BC. Neglect the weight of the crane. 0.4 m 3 m- 8 KN Figure 1

The uniform slender rod of mass m is suspended by a ball-and-socket joint at O and two cables.Determine the force reactions at O and the tension in each cable. Ox= -0.1443mg, 0y, = 1.384mg Oz = -0.299mg Tac=1.422mg, Tbd = 0.822mg

Q1: Consider the table below: a) Find the gain of Half-wave dipole antenna over the Isotropic antenna. b) Find the gain of Parabolic antenna (with face area A) over the Isotropic antenna.

A bended steel pipe is support by three cables, known that AB = 0.6 m, BC = 1.2 m, and a = 0.4 m. It has a mass per unit length of 10 kg/m. Determine the tension in each cable.

A Draw a free-body diagram of member AC in the figure below and label all the horizontal and vertical components of the forces acting on it. Show the forces at B as fractions of BD. 2 m 4 m T B 15° Det 2 m 1 m Added 2 m Comment

Question 2 (25 points) ✔) Listen The center lines of the arms of the tree pruning lopper intersect at E as shown in Figure. Determine angles 01, 02, 03, 04, 05, and 06. 30lb 27" 0₂ 05 Intersection of arm centerlines 30 lb 06 37%" 0₂ A O BO O 37½" D 30%

2. A force of 150 lb acts on the end of the beam shown in Figure 2. Using the free-body diagram for the beam shown in Figure,2, find the magnitude and direction of the reaction at pin A and the tension in the cable. Neglect the weight of the beam. Li 150 lb (a). 150 lb Figure 2 8 ft (b). T 15ft 3 ft