Consider a transmission line with characteristic impedance Zo= 50, length = 600 m, and prop- agation velocity v = c = c = 3 x 108 m/s. A voltage source f(t) with an internal resistance Rg = 25 is connected to one end of the T.L. (at z = 0) and the other end (z = 1) is terminated by a load resistance RL = 50/3. a) Construct a bounce diagram to determine the voltage, V(z, t), variations on the line for 0 <=<1 and 0 < t < 10 µs for f(t) = 8(t). Write the values of Tg, TL, and I, explicitly and make sure to label both axis of the bounce diagram properly in terms of m and us units and indicate the amplitudes of traveling impulses next to the impulse trajectory lines. b) -17 Write your expressions for V(,t) and I(,t) as weighted sums of appropriately delayed impulses 8(t) for 0 < t < 10 µs.

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5. Consider a transmission line with characteristic impedance Zo=50, length = 600 m, and prop- agation velocity v = Vcc = c = 3 x 108 m/s. A voltage source f(t) with an internal resistance R₂= 25 is connected to one end of the T.L. (at z = 0) and the other end (z = 1) is terminated by a load resistance RL = 50/30. a) Construct a bounce diagram to determine the voltage, V(z, t), variations on the line for 0 <=<1 and 0 < t < 10 µs for f(t) = 8(t). Write the values of Tg, IL, and I, explicitly and make sure to label both axis of the bounce diagram properly in terms of m and us units and indicate the amplitudes of traveling impulses next to the impulse trajectory lines. b) Write your expressions for V(,t) and I(,t) as weighted sums of appropriately delayed impulses 8(t) for 0 < t < 10 µs.