While sampling a signal at 1000 Hz, you see an unexpected frequency at 250 Hz and...

You need to select a device to measure a signal at 250 Hz with no more...

You need to select a device to measure a signal at 250 Hz with no more than a 2% loss of amplitude.   A line of instruments is available that has a fixed natural frequency of 600 Hz, but the line has a range of damping coefficients. Which of the following damping coefficients would be appropriate? a) 0.54 b) 0.60 c) 0.66 d) 0.75 e) 0.48

A race car is traveling towards you and you hear a sound of frequency 4072 Hz...

A race car is traveling towards you and you hear a sound of frequency 4072 Hz while the car is traveling towards you. Then the car shoots by you and as the car is traveling away from you, you hear a frequency of 2774 Hz. The car is moving at a constant speed during the whole time you hear these two frequencies, what is the speed (in m/s) of the car

1. An amplitude modulated system has following parameters: Modulating signal frequency fm = 500 Hz, Carrier...

1. An amplitude modulated system has following parameters: Modulating signal frequency fm = 500 Hz, Carrier frequency fc = 2KHz. Draw a two-sided spectrum with approximately scaled frequencies and amplitude. Consider perfect modulation (mod index = 1). 2. What is the typical range of AM modulation index (depth)? What will happen if it is at the lowest value or highest value in the range? What will happen if it goes beyond the range? too low a level of modulation and...

A siren emitting a sound of frequency 1000 Hz moves towards you, and away from a...

A siren emitting a sound of frequency 1000 Hz moves towards you, and away from a cliff at a speed of 25 m/s. a) what is the frequency of sound you heard coming directly to you from the siren? B) what is the frequency of sound you hear reflected from the cliff? (speed of sound = 340 m/s).

Frequency JND is around 0.5% for any two nearby frequencies (e.g., you can tell 100 Hz...

Frequency JND is around 0.5% for any two nearby frequencies (e.g., you can tell 100 Hz and 100.5 Hz notes apart, but maybe not 100 and 100.2 Hz), and the LFD is at best 7%. a. (2) What is the % difference between any two adjacent notes on figure A-1 which shows the standard Western 12 tone scale? Be careful not to skip the black notes for this problem! b. (2) But when two notes on a Western scale, even...

As you sing a pure steady note of frequency 550 Hz, there is a pressure wave...

As you sing a pure steady note of frequency 550 Hz, there is a pressure wave traveling outwards from you (at the speed of sound, naturally). What is the wavelength of that sound wave? (Assume the temperature is 20 C, room temp) Compute your answer in meters, but do not enter units to CAPA, just input the number. For you to think about: Is this a high or low note? How does that wavelength compare with ordinary sizes of things...

A "shaker table" is a device on which you very securely mount an object and shake...

A "shaker table" is a device on which you very securely mount an object and shake it to see if it comes apart under the acceleration due to the shaking. It is widely used to test electronic components to be launched into space to see if they can withstand the acceleration forces that are involved in the launch. The shaking is usually simple harmonic. In operation, such a shaker is started at zero frequency and, while the amplitude is fixed,...

You collect several thousand Drosophila melanogaster individuals from the UCD campus. You take 1000 flies, establish...

You collect several thousand Drosophila melanogaster individuals from the UCD campus. You take 1000 flies, establish a population in the laboratory and maintain it at a size of 1000 each generation. You then establish from the remaining flies a series of replicated populations of size 10, 100, 200, and 500 and maintain each at the starting size (10, 100, 200, 500) for several generations. After some time you sequence each lab population. a. If one plotted for each lab population,...

A guitar string is clamped at the nut and the bridge. When you pluck the string,...

A guitar string is clamped at the nut and the bridge. When you pluck the string, you set up a standing wave on it. The “scale” of the guitar is the distance from nut to bridge, typically 64 cm.(a) [4 pts.] The low A string on a guitar is supposed to produce a note with a frequency of 110 Hz. What is the speed of sound on this string?(b) [3 pts.] If the pitch is too high, you can lower...

A guitar string is clamped at the nut and the bridge. When you pluck the string,...

A guitar string is clamped at the nut and the bridge. When you pluck the string, you set up a standing wave on it. The “scale” of the guitar is the distance from nut to bridge, typically 64 cm.(a) [4 pts.] The low A string on a guitar is supposed to produce a note with a frequency of 110 Hz. What is the speed of sound on this string?(b) [3 pts.] If the pitch is too high, you can lower...