6) Outside t 4 ay ラfirst quaarant Compu te SS xey axdy using chare of varahes 6) Outside t 4 ay ラfirst quaarant...
Using the table of Laplace Identities, find the Laplace Transform of: g(t) = U(t − 4)te−t
blem 1. A signal varies as y(t) 1000sin(40Tt) + 500 sin(150rt). 1. Compu signal Compute Nyquist frequency for the signal. Does aliasing show up in the sampled signal provided a sampling frequency of 100 H Support your answer with appropriate calculations & using folding plot below. Compute the aliasing frequency. te the maximum frequency that can be represented in the resulting discrete 2. 3. 4. Sin 3.2 2.8 In-phase tofsf 2.6 2.4 2.2 Out-of phase 1.8 1.6 1.4 0.4 0.8...
6. Find te nokution f VP 4-6) in the cae : 7. Find the sutien IVP 4-6) in the cam Here δ(x)-S(,)s,x) u the 3-dim Dirac and ay chned a ation f waves preded ly a seure f Ramenc
6. Find te nokution f VP 4-6) in the cae : 7. Find the sutien IVP 4-6) in the cam Here δ(x)-S(,)s,x) u the 3-dim Dirac and ay chned a ation f waves preded ly a seure f Ramenc
First sample average = 4 Second sample average = 9 SS for first sample = 16 SS for second sample = 15 Sample size for first sample = 8 Sample size for second sample = 8 Compute the t-score. Round your answers to 2 decimal places and be sure to include the negative (-) if necessary, in your answer. Enter your response in the space provided here.
Consider the following differential equation for A = 4 and B =
4: y''(t) + Ay'(t) + By(t) = 8u(t) + -6t u(t) where u(t) is the
unit step function. Assume initial conditions: y'(0) = -6 y(0) = 5
Solve this differential equation to obtain an answer of the form
shown below. Enter the value for the coefficient c3. Please enter
your answer as a number in decimal format (not a
fraction).
y(t) = co0(t) + Ga(t) + c2 ta(t)...
8 Ay 10- Compute the following estimate of f(x) dx using 0 8- y = f(x) the graph in the figure. T(4) 6 4 2- 6 00 N 10 Using the Trapezoidal Rule, T(4)= (Type an integer or a simplified fraction.)
8 AY 10- Compute the following estimate of Sf(x) dx using 8- y=f(x) the graph in the figure. 6- T(4) 4- 2- X 0 0 2 4 6 00- 10 Using the Trapezoidal Rule, T(4) = (Type an integer or a simplified fraction.)
Question 1 Simulate the operation of a first-in-first-out queuing system until time TE = 30 minutes, using the interarrival and service-times given below (in minutes) in the given order. Interarrival times: 4, 3, 1, 1, 5, 7, 10 Service times: 4, 4, 6, 9, 8, 7, 4, 6 Given that the first arrival occurs at time t = 0, create a record of hand simulation (on the table given in the last page) using the event-scheduling algorithm and compute the...
or at a 6 for 5 Solve the equation by using implicit FDM(,t)-4 (3,t)-2
or at a 6 for 5 Solve the equation by using implicit FDM(,t)-4 (3,t)-2
06 Let {xW;t 203 follo ay Let 2X(4) t zo} follows the poisson process with average arrival rate of 5 people per 1/2 hour. Find the probability of lo arrivals in the interval of 10 minutes to 20 minutes Find the probability that any arrival has to wait for more thon 15 minutes D> P(x(1) = 10 / X(20) = 15), d) PCX (20) = 15 / XCI) = 10) e> P(x(20) = 10 / PX(19) - 8, X(18) =...