Please show how to compute the power spectrum of an MA(1) model. This is about time...

Suppose the simple return of a monthly bond index follows the MA (1) model: r_t =...

Suppose the simple return of a monthly bond index follows the MA (1) model: r_t = a_t - 0.2a_t-1 We know the standard deviation of the white noise sigma = 0.025. Assume that a_100 = 0.01. Calculate the value of the 1-step and 2-step ahead forecast at time t = 100. Calculate the standard deviation of the associated forecast errors. Finally, compute the numerical values for the lag-1 and lag-2 autocorrelation of the return time series.

1. General features of economic time series: trends, cycles, seasonality. 2. Simple linear regression model and...

1. General features of economic time series: trends, cycles, seasonality. 2. Simple linear regression model and multiple regression model: dependent variable, regressor, error term; fitted value, residuals; interpretation. 3. Population VS sample: a sample is a subset of a population. 4. Estimator VS estimate. 5. For what kind of models can we use OLS? 6. R-squared VS Adjusted R-squared. 7. Model selection criteria: R-squared/Adjusted R-squared; residual variance; AIC, BIC. 8. Hypothesis testing: p-value, confidence interval (CI), (null hypothesis , significance...

TIME SERIES ANALYSIS IN R Simulate time series of length 100 from an AR(1) model with...

TIME SERIES ANALYSIS IN R Simulate time series of length 100 from an AR(1) model with α equal to 0.9. Estimate the parameter of the model, make prediction for 1 to 10 steps ahead, and make a time plot

Question about Diffraction Grating: Show by means of equations that a complete spectrum of incident radiation...

Question about Diffraction Grating: Show by means of equations that a complete spectrum of incident radiation is formed for each value of m except zero. Equation: mλ = d(sini + sinθ) Please explain your answer.

For Networks -> Please show me how to calculate: 1.)   The maximum data rate of a...

For Networks -> Please show me how to calculate: 1.)   The maximum data rate of a signal using the Nyquist theorem. 2.)   The maximum bit rate of a signal using the Shannon’s theorem. 3.)   How much bandwidth is there in 0.1 microns of spectrum at a wavelength of 1micron?

Please show the model and explain the quantity theory of money and how changes in the...

Please show the model and explain the quantity theory of money and how changes in the money supply can affect the FX rate.

A model cost/benefit analysis of solar power. The main ingredients of this analysis are the power...

A model cost/benefit analysis of solar power. The main ingredients of this analysis are the power used (required) and the power delivered. For a simple model we want to use broader averages. Used: An American home has an average power use of 1.2 kW. That means that considering all of the daily variation, the difference between night and day and the seasons, etc., the average at any given second is 1.2 kJ per sec = 1.2 kW. Delivered: The home...

1. (a) Let f(x) = exp(x),x ∈ R. Show that f is invertible and compute the...

1. (a) Let f(x) = exp(x),x ∈ R. Show that f is invertible and compute the derivative of f−1(y) in terms of y. [5] (b) find the Taylor series and radius of convergence for g(x) = log(1+ x) about x = 0. [6]

Please explain each step thanks :) A pulsing star A of mass Ma orbits a black...

Please explain each step thanks :) A pulsing star A of mass Ma orbits a black hole B of mass Mb. They are R meters apart. 1. What is the orbiting period if Mb>>Ma 2. Where is the barycenter 3. What is the time dilation caused by the black hole at "A" 4. If the observed (at earth) pulsar period is T. What is the actual period at "A" 5. How large can "A" be before it starts loosing mass...

Please explain each step thanks :) A pulsing star A of mass Ma orbits a black...

Please explain each step thanks :) A pulsing star A of mass Ma orbits a black hole B of mass Mb. They are R meters apart. 1. What is the orbiting period if Mb>>Ma 2. Where is the barycenter 3. What is the time dilation caused by the black hole at "A" 4. If the observed (at earth) pulsar period is T. What is the actual period at "A" 5. How large can "A" be before it starts loosing mass...