2. Let X and X be two random variables with the following joint PMF Yix 2 0 2 0 0.1 0.05 0.05 0.15 0.1 0.05 0.1 0.05 0.05 0.05 4 0.05 0.05 0.02 0.1 0.03 total 0.2 0.2 0.12 0.3 0.18 total 0.45 0.3 0.25 1 1) Find E[X] and E[Y]. (10 points) 2) What is the covariance of X and Y? (20 points) 3) Are X and Y independent? Explain. (10 points)
Problem 2. Determine the tension forces in wires CA and CB required for equilibrium of the cylinder that has a mass of 10 kg. Take the angle as 40°. (30 pts) Problem 3. If cable CB in Problem 2 is subjected to a tension that is twice larger than the tension in cable CA, what would be the angle for equilibrium of the 10-kg cylinder? Also, what are the tensions in wires CA and CB, then? (30 pts)
7-7. The output of the system shown in Fig. 7P-8 has a transfer function YIX. Find the poles and zeros of the closed-loop system and the system type. system given in Fig. 7P-8. S+ 1 s2 Figure 7P-8
For the given truss, calculate: 1) The force in member CB 2) The force in member CD 4 30° 300 F3 F2
2. CB amplifier is operating with RL Ic should the transistor be biased for the input resistance Rin to equal that of the signal source? What is the resulting overall voltage gain? Assume α 1. 10 kQ, Rc 10 kQ, and Rs.,-50Ω. At what current 2. CB amplifier is operating with RL Ic should the transistor be biased for the input resistance Rin to equal that of the signal source? What is the resulting overall voltage gain? Assume α 1....
Two waves in the same medium are given by yix, t)3.8 sin(9.0x 3.4t) and y2(x, t)-3.8 sin(4.5x- 1.7t) (a) In what ways do the two waves differ? (Select all that apply.) angular frequency amplitude wavelength direction of motion speed b) Find the wave that results on this string. Hnt: Recall that sin α + sin β 2 sin α + β β Use the following as necessary and t cos α (c) What is the resultant wave's amplitude? (Use the...
Problem 4: Find the support reactions at hinge A and along strut CB (assume 2 force member) if the circular door weighs 01b 3 ft
2 Rate = Consider the overall reaction: AB(g) + CB(g) ⟶ A(g) + CB2(g) A proposed mechanism for this reaction is 2 AB(g) ⇌ AB2(g) + A(g) (fast) AB2(g) + CB(g) ⟶ AB(g) + CB2(g) (slow) Based on this mechanism, determine the rate law for the overall reaction. Express your answer in terms of k and the necessary concentrations (ex: k[X][Y]^2). Use brackets around the concentrations and the caret symbol prior to the exponent. Do not include any multiplication signs. Type...
Problem 2 Suppose that the heat capacities CA and CB of two objects A and B are measured at constant pressure and they are found to be temperature-independent. Initially, TB > TA. Suppose the two objects are brought into thermal contact but are isolated from the surroundings. What is the equilibrium temperature of the combined objects?
3. a. If cable CB is subjected to a tension that is twice that of cable CA, find the angle θ: b. If cable CB is subjected to a tension equal to the tension in cable CA, find the forces on the cables if the cylinder’s mass is 10 kg. 3. A. If cable CB is subjected to a tension that is twice that of cable CA, find the angle 6: a. 14.5° b. 60.0° c. 64.3° d. 30.0° 3....