HW 08: Difference between revisions

Question 1

If the sound track of a movie was played into a high fidelity playback system at twice the correct speed, what happens to a sine wave's frequency, amplitude and phase, relative to what happens at the correct speed? Explain your answers.

Answer 1

Frequency: The frequency is doubled Amplitude: Phase:

Question 2

Suppose ${\displaystyle x(t)=\int _{-\infty }^{\infty }\Omega (\beta )\,\Phi (\beta ,t)\,d\beta }$ and ${\displaystyle \int _{-\infty }^{\infty }\Phi ^{*}(\beta ,t)\,\Phi (\lambda ,t)\,dt=\delta (\beta -\lambda )}$ where ${\displaystyle x(t)\,\!}$ is any real function of t. If we have a linear time invariant system where an input of ${\displaystyle \Phi (\lambda ,t)\,\!}$ produces an output of ${\displaystyle \Psi (\lambda ,t)\,\!}$.

• How do you find ${\displaystyle \Omega (\beta )\,\!}$ if you are given ${\displaystyle x(t)\,\!}$?
• What is the output due to ${\displaystyle cos(2\pi ft)\,\!}$?

Answer 2

Question 3

If a signal x(t) only has frequency components near DC, ${\displaystyle \left|X(f)\right|=0}$ for ${\displaystyle |f|>f_{max}\,\!}$, then x(t) is known as a baseband signal. When x(t) is a baseband signal, ${\displaystyle x(t)\,\cos(2\pi f_{0}t)}$ is known as a double sideband (DSB) signal. Sometimes a double sideband signal is used to send information over a radio frequency communications link. The transmitter and receiver are shown below.

• Find the Fourier Transform of the DSB signal, ${\displaystyle v(t)=x(t)\,\cos(2\pi f_{0}t)}$.
• What is the lowest ${\displaystyle f_{0}\,\!}$ that can be used and still have the communications system work?
• How does the bandwidth of v(t) compare to the bandwidth of x(t)?
• What does the spectrum of w(t) look like and how does it compare to that of x(t)? A graph would be appropriate showing the spectrum of x(t) and that of w(t).

Answer 3