Vi + B f = V1 – B Source and receiver approaching
Q: Calculate the equivalent resiİstance between A and B
A:
Q: Simplified the equations for an electric motor can be given ϴ``(t) + 2ϴ`(t) = u(t) Where ϴ(t) is…
A: a) The equation is ϴ``(t) + 2ϴ`(t) = u(t) Let us assume that x1(t) and x2(t) are the two state…
Q: From Maxwell equations derive the equation describing the field for plane waves. Assume this waves…
A:
Q: ) i elow, Consider a M/M/1/00 system, where 1 = 1 pkt/s and u = 2 pkt/s (that is, the system has an…
A: Given: A M/M/1/∞ Where, the values of λ=1 pkt/s, μ=2pkt/s
Q: communicating with an astronaut on the moon, 3.8 108 m from earth, what is the minimum time delay…
A: Spped = distance /time Time = distance /speed
Q: Using the Laplace transform to find the current i(t) in the circuit: vit) Assume zero initial…
A: R=2 ΩL=1 HC=0.1 Fv=255 sin t V 0< t<2π = 0…
Q: A parallel-plate capacitor with capacitance C whose plates have area A and separation distance d is…
A:
Q: The EM waves from an unknown source has a frequency range from (1 x 1013) Hz to (6 x 1013) Hz. Find…
A: The given frequency range is ν1=1×1013 Hzν2=6×1013 HzThe bandwidth or linewidth for this frequency…
Q: The stationary States be when the potential energy of the particle does not depend on * .the…
A: Introduction: The stationary state is called a stationary state because it remains in the same…
Q: b) Calculate the carrier frequency if the required intermediate frequency (IF) in a superheterodyne…
A: The carrier frequency, fc, intermediate frequency,fIF , and local oscillator frequency, fLO are…
Q: Given a manometer with tube diameter 0.6 cm and mercury length of 122 cm, the applied pressure is…
A: SOlution: Given that D = 0.6 cm L = 122 cmP1 = 15 cmP2 = 20 cmρ = 13.5 g/cm3μ = 0.016 g/cmg = 980…
Q: An air-filled parallel plate capacitor is fed with a sinusoidal signal V = 20sin(10³i) mV. Calculate…
A: Given: V = 20 sin (103t) mV = 0.02 sin(103 t) VA = 10 cm2=10*10-4 m2d =2 mm = 2*10-3 m
Q: pasition of times given by The particle as a function of [(5t - 24)A + (42 - 8t) ĵ + (st² +)km wheue…
A: Given that, The position of a particle is given by : r→=5t2-2ti^+t2-8tj^+3t2+1k^ m Where t is in…
Q: Consider the "step" potential: 0. =1 (a) Calculate the reflection coefficient, for the case E 0.…
A:
Q: During a 0.001 s interval while it is between the plates, the change of the momentum of the electron…
A:
Q: Show that the force vector is conservative, hence Find the potential function
A: A vector-is said to be conservative if it’s curl comes out to be zero and then only corresponding…
Q: In a time division multiplexing (TDM) system, consider a scenario where 10 different sources, each…
A: In a Time Division Multiplexing (TDM) system, each source is allocated a specific time slot within a…
Q: You wish to temporarily mount a wire to serve as the antenna of your transmitter in your laboratory.…
A: We know laboratories are usually shaped in the form cuboid. To mount a straight wire and as long as…
Q: Starting with the expression for intensity, how that the point (p = 0, z = 0) is where a Gaussian…
A: The Gaussian beam intensity denoted by I and the power P is expressed as, Here ρ is the radial…
Q: My sister Crystal of mass M1= 50 kg is on an ice-covered sidewalk with her dog Buster, who has mass…
A: Concept used: Equations of motion for uniformly accelerated motion are solved.
Q: How large an error is made in using the nonrelativistic expression K = mv²/2 for the kinetic energy…
A:
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: Sketch a plot of the current I versus voltage V across an ideal photocell when visible light is…
A: Given:Sketch a plot of the current I versus voltage V across an ideal photocell when visible light…
Q: (b) A magnesium atom (mass of 24 proton masses) in a crystal is measured to oscillate with a…
A: (b) Given Magnesium atom mass m = 24 proton masses =24×1.67×10-27 kg = 40.08×10-27 kg Frequency v…
Q: dx The suitable Liapunov function for the system dt v (x,y) = x² + y² V(x, y) = 2x² + y² V(x,y)= x²…
A:
Q: By comparing the frequency of a received echo with the known frequency of the emitted sound, SONAR…
A: Here given a submerine is virtually at rest .It emits sound with frequency f at a speed v. The speed…
Q: Radiation heat transfer coefficient means the ability of particle to transfer heat in solid. (True…
A:
Q: A gamma ray source emits photons with energy 15 keV. The photons are directed up against the…
A: Doppler frequency shift is given by the formula , ∆f =νc if energy is given then E =hf or f = E/h…
Q: EXAMPLE 31-5. Phone call time lag. You make a telephone call from New York to a friend in London.…
A: Note: A rough estimate of speed of light in undersea cables and distance between two cities is…
Q: Find inverse la place transform of S² +48
A: L-11s2+4s=L-11s(s+4) =L-1141s-1s+4 =14L-11s-1s+4…
Q: Given the gradient of the graph of lnV versus t as - 0.00675 s-1, what would be the time constant…
A: The voltage across the plates of the capacitor while discharging is given by, V = V0e-t/RC By…
Q: Derive the propagation of error equation for the following functions: y = (x+z)/w and y = Ae^(1/x)…
A:
Q: The energy flux from the sun has a peak value of around 1500 W/m2, and solar cells are around 15%…
A: The daily energy consumption of the US is given by:
Derive Equation for the case where the source is fixed but the receiver approaches it with velocity v.
Step by step
Solved in 2 steps