approximation
Q: nCu) do=A e 26T Smd A by usmg the condheron N=fnco)du , whene Nis the nember of portreles' t) Usng…
A:
Q: Figure Q2 (b) shows a controlled full-wave bridge rectifier has a source of 200 V rms at 50 Hz, an…
A: Given that, The source voltage, Vs is 200 V. The frequency, f is 50 Hz. The resistance, R is 50 Ω.…
Q: 2b. Consider that the input to the tank-pipe liquid system is formed of a source pressure pi, the…
A: Answer..
Q: $ uelpaly of body is half the myainunm velocilti. Then Oohat is Then OLohat is from the mean…
A: To find-Displacement (x)=?Given-Velocity (V)=Vmax2Vmax=aωV=aω2
Q: What is the maximum filtering velocity for Carbon fumes in Pulse-Jet Baghouses?
A: Given: To define the maximum filtering velocity of the carbon fumes is given as,
Q: Show that the delay line does not alter the spectral characteristics of an input process. (Please…
A: To prove that the delay lines does not alter the spectral characteristics of input process
Q: Show that the most probable speed of the Maxwell-Boltzmann distribution of molecular speeds is given…
A: To show that, the most probable speed of the Maxwell-Boltzmann distribution of molecular speed is…
Q: In 2019, the International Committee for Weights and Measures adopted a new set of denitions for the…
A: Solution: Let M be the mass in kilogram, L be the length in meters, and T be the time in seconds.…
Q: is the
A: a)
Q: mus m e 2kT, to show that 2TkT where m is the mass of the molecule, P and T are the use the 1D…
A:
Q: Q 1: In the stretching stabilization frying process to obtain a giant laser pulse, prove that the…
A: In the technique of pattern stabilization to obtain a giant laser pulse.
Q: exagonal crystal, measured using Calculate the lattice parameters.
A: Using Braggs law and required calculations,the lattice parameters are determined
Q: What is the uncollided flux density 1 m from a 1 µCi point source of 137Cs if the source is…
A: Flux is independent of shape It is same for all arbitrary shape. φ=qε0 ϕbeing the flux and q is the…
Q: ) A source of spherical waves of frequency f and pressure amplitude A at 1 meter is a distance d…
A:
Q: Example 7.4 Calculation of wall energy and thickness from anisotropy energy, saturation…
A: Exchange energy, J=3×10-21JSaturation magnetization, Ms=0.38×106 A/mAnisotropy energy, K=33×104…
Q: A 110HZ wave (sinuscidal) propagates in the z-direchion. The elechric field points in the x direchon…
A: Given: f=110 HzEmax=26.5 V/mdirection of propagation of em wave = zdirection of E field = x
Q: n active region is with cross section of 3.48 x 10 you know the actual power of lamp is 60 W and te…
A: GivenA=3.48×10-19 cm2L=7.3 cmP=60 Wη=8.8 %λ=462 nm
Q: if the wave function of a system Ucr) == là) exPl) from the Periodr=o the r= infinite is a Cons tant…
A: According to the demand of the question, the dimension of the function is dependent only on 1a32…
Q: A single mode step index fibre in doped silica works at a wavelength of 1.31 micro metres. What is…
A: The wavelength of 1.31 micrometers is significant for single mode step index fibers in doped silica…
Q: Given that doppler broadened gain curve of a helium neon laser with a 50cm long resonator emitting…
A: Given: Length of the resonator, L=50 cm. Position for emission of laser, x=1.55 mm. The line width…
Q: From the Gaussian error curve, what is the probability that a result From population lies between +o…
A: area under -σ and +σ is 68.3%then area under 0 and +σ would be 68.32 = 34.15%also, area under -2σ…
Q: Find the minimum acceleration needed for a maglev train to reach a speed of 430 km/h in 3.0 km, one…
A: Given data: The speed of the maglev train is v=430 km/h. The distance is s=3.0 km. Calculate the…
Q: After measuring at the (200) Bragg peak, moving to the (111) Bragg peak, what are the Δ2θ and Δω?…
A:
Q: (a) What are the important energy distribution functions used in physics? Express them in…
A:
Q: For a BJT , if the Q-point was at the upper part of the load-line with normal 2 sources bias; if IB…
A:
Q: From the Maxwell-Boltzmann energy distribution find the most probable energy E* by performing the…
A:
Q: Assume that the SIR required for satisfactory voice performance on the forward channel of a cellular…
A: Concept: The signal-to-interference ratio (SIR) is the quotient between the average received…
Q: how much energy does it take to singly ionize it?
A:
Q: Starting with the equation = -S, derive four equivalent fundamental lar), equations that are called…
A:
Q: Q# 04: Find Laplace transform of the function 2 Sint
A: The function is of the form tn f(t) where, n=2
Q: For a bcc and fcc network (v1 v2 v3), write the first five allowed peaks
A: We know the formula, sin2 θ=λ24a2(h2+k2+l2)
Q: Da Calulate the ouiput from the node belaw, assuning threshold of 0.5 0.3 0.6 7output. inputs wights…
A: Given that, Threshold value is 0.5 In that case 0.1 will be neglected, because it is below…
Q: Bymthetic magnetic the have been monopoles. their validityt, Qwoite down crea lab using the Quantum…
A: Introduction: A magnetic monopole is an isolated magnetic charge, such as a single north pole or a…
Q: H.W.3: For v = 170 sin 2450t, determine v at t= 3.65 ms and show the point on the v waveform.
A: v=170sin2450tat 3.65 ms=170sin24503.65 ms10-3 s1 ms=1700.155=26.3 m/s
Q: Solve the following differential equations. You may have to leave your answer implicit. 1)…
A: Given the differential equation is; y’= (y-4x)/(x-y) Solving the above expression;
Q: Q I/A voice signal with maximum frequency of 3kHz, is to be transmitted using sampling frequency fs=…
A: The data given in the question is as follows: fm=3 kHzfs=8 kHzτ=0.1 Tstr=0.01τ The aim here is to…
Q: Calculate the threshold power for stimulated Brillouin scattering for a 50-km fiber link operating…
A: Given: Distance, L=50 km Wavelength, λ1=1.3 μm Loss, α1=0.5 dB/km Wavelength, λ2=1.55 μm Loss,…
Q: For a classical ideal gas given the square root of p^2 in the amount a(mkt) then the value of a is
A: For a classical ideal gas, the RMS velocity is given as : vrms=v2=3kTmHere, m is mass of one…
Q: Show that the minimum energy of a simple harmonic oscillator is fw/2 if ArAp = h/2, where (Ap)² =…
A:
Q: where g is the acceleration due to gravity, p is the fluid density, a is the thermal ex- pansion…
A:
Q: Find the value of (), where(), = a/k and 9, = -Vk, Using Maxwell relation in thermodynamic.
A:
Find expression for lower hybrid frequency these oscillation can be observed only if teeta is very close to pie/2 by using poisson's eq??? instead of plasma approximation.
Step by step
Solved in 2 steps