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Calculate the gap energy and the emitting wavelength of a GaAs laser that is operated at 100°C. Take the necessary data from the tables in Appendix 4 and Section 19.2.
What is the perceived colour if the energy of light is same corresponding to red green and blue,and zero at other frequencies what about red and green frequencies only
Consider a lower-performance version of the Sobel accelerator, dealing with video frames of 320 × 240 8-bit pixels at a rate of 15 frames per second. Repeat the analysis of Example 9.6 to determine a suitable approach to memory accesses for this v..
a certian voltage is +10V for 20ms and -10 V for the succeding 20msand continues osciallating back and forth between these two valuesat 20ms intervals. The voltage is present across a 50 ohmresistor. over any 40ms interval
The saw tooth waveform of Problem P6.5 is applied as the input to a filter with the transfer function shown in Figure P6.15.Assume that the phase of the transfer function is zero for all frequencies. Determine the steady-state output of the filter..
What is the maximum quantization error for a signal that is quantized to peak-to-peak amplitude of 3V and using 7 bits. Think of quantization error as the difference between the actual sample's value and the value you assign it from quantization.
To expand further, we want to try out logic in interacting with users. Here is a sample of a game, using loops and decisions to allow a person to play rock-paper-scissors with a computer.
Design a discrete common emitter BJT amplifier to have overall gain of -8 V/V. (Determine value for R1, R2, RC and RE)
bode frequency response using plot the bode frequency response adb vs.f and theta vs.f on a semilog graph for the
The following represent soulution of the transmission line disserential equations for some arbitrary function f(u): V(z, t) =60 cos(1000t -5z) -120 pi f (2t +z/100 +12) V i(z, t) = 2 pi f (2t +(z/100) +12) - cos(1000 t -5z) A a) what is the forward p..
Two free particles (that is, free to move) with charges +1µC and +3µC are a distance L = 2m apart. A third charge is placed so that the entire system is in equilibrium. Find the location, magnitude, and sign of the third charge.
Assuming that the speed of rotation and magnetic flux density are constant, plot the terminal voltage of this machine as a function of the current drawn from it.
A very long, tightly-wound solenoid has a circular cross section of radius r = 2.6 cm . The magnetic field outside the solenoid is negligible. Throughout the inside of the solenoid the magnetic field B is uniform, out of the page as shown, but var..
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