Homework Statement
An electronic device is designed to amplify signals in the frequency range 80 MHz to 111 MHz. what is the smallest duration pulse in this frequency range that can be amplified without distortion?
Homework Equations
T=1/f
The Attempt at a Solution
the smallest duration...
Hi
I have question if you can help me
I want to design LPF between SiC Inverter and Induction Motor
switching frequency of my inverter is 50KHz
Output voltage is 400V
for the IM motor
power 15 KW
current 28.5 A
P.F. 0.84
I locking for a formula to calculate the values of inductance and...
I've learned that when wavelength increase the frequency decreases.
But in Refraction, there is a mention about frequency remains same but the wavelength and speed changes. Why does the frequency doesn't change? I thought when when wavelength is short the peaks are closer to each other so...
I am trying to solve the problem 4.8 found http://phys.csuchico.edu/ayars/312/Handouts/comp-phys-python.pdf at pdf's page 115-6 [book's page 107-8].
My code so far is:
from mytools import rungekuta4
from pylab import *
#set globals
G=9.81
MASS=1.0
K=42.0
MU=0.15
A=1.
OMEGA=0.01
#set diff...
Hi
I was wondering if someone could help me understand and explain to me how one can control the frequency of the grid from help of the active power (frequency -> power angle -> active power) and how reactive power can be used to control the voltage level.
My thoughts:
Voltage Control:
I don't...
Homework Statement
Question 1: When analysing AP French's Formula for Frequency of Wine glasses, what is the direct relationship between the Frequency heard (at different levels - fd) and the level of water from the top of the glass (d). I know that as the level of water from the glass...
Homework Statement
For one-dimensional monatomic crystals, the dispersion plot for phonons has a maximum frequency ωmax. If a driving force oscillates the crystal beyond this frequency, the phonon will no longer propagate and will instead decay as it gets further from the external source of...
This is actually a straightforward question, but I'm struggling to find answers because I don't know very much about lasers. I want to use a nonlinear crystal for frequency doubling in an infrared laser (1480 nm) so that the output is half @ 740 nm. I know that nonlinear crystals like KTP are...
Will copper behave as a dielectric in high frequencies?...I tried to answer the question with loss tangent but relative permittivity of copper posed a problem...everyone on internet opines differently about relative permittivity of metals...then I looked at skin depth which decreases with...
Homework Statement
The police was headed to a felony and passed you so you stopped. What frequency did you hear 3 second after the police passed you?
Homework Equations
f=1/T
The Attempt at a Solution
f=1/3
f=.33Hz
Homework Statement
Temperature is 28C, a police car with a siren blazing at 988Hz is coming toward you at 23m/s so you run away at
7m/s.
Homework Equations
f=f(v+-o/v+-s)
The Attempt at a Solution
I'm confuse on the formula.
So today I was thinking that color is connected with a given wavelength (for example red light in air is about 600nm) but after some research online I found out that color depends on the frequency and when light travels through various optical media (like air, glass etc) speed and wavelength...
what can be the uncertainty of the frequency that humans can hear ?
I'm aware that there are many ways,but i tried google-ing to find them but i couldnt.
if you could help me it would be great.
Homework Statement
My group and i need to do an experiment for school. We decided to investigate the effect of water level in a vine glass (or volume) on the resonance frequency. Basically does the resonance frequency change when you change add water to the glass. I would just like some help...
Can someone kindly explain , what is the frequency of non periodic signals? Periodic signals have frequency of number of cycles completed in one second and but non periodic signals don't have repeated pattern so what would be the frequency of non periodic signals. Kindly do explain it in simple...
Hi all, I am really confused about the relationship among these three properties and I cannot find an answer satisfying enough..
If frequency of incident light increases but intensity remains the same, the photocurrent will decrease. Does this mean that the new curve on the current vs. voltage...
An interesting article on the Tacoma Narrows Bridge collapse of 1940 shown to students of physics throughout the years as an example of the power of resonant frequencies.
However, the explanation was much too simple to be true.
Here's the real story...
I was told that there are two kinds gravitational waves. One dies out as 1/r, another one dies out as 1/r^2. The former is what LIGO detected, the latter is not. While I trust the professional qualification of the person very much, as a non-physics professional, I would like to a second person...
Question: The frequencies of the first three harmonics of a 300 Hz square wave are 300 Hz, 900 Hz, and 1500 Hz. If the amplitude of the fundamental is 1.00 A, then the amplitudes of the second harmonic is _____ A, and the amplitude of the third harmonic is _____ A.
I found the answer to the...
Homework Statement
Homework Equations
tangential velocity v = ωr
angular velocity ω = 2πf
The Attempt at a Solution
Not really looking for help to solve the problem. I'm just confused about the speed/angular velocity and frequency
If the frequency of the motor is given as 24 Hz, then...
I'm reading a guide on how Tesla coils and slayer exciters work on this Instructable and it was speaking about how to fine-tune the Tesla coil in order to match the resonant frequency of the secondary coil. I understood it when it spoke about changing number of capacitors or the distance of the...
Homework Statement
A horizontal plank (mass 2kg, length 1m) is pivoted at one end. A spring (k=1000N/m) is attached at the other end. Find the angular frequency for small oscillations.
Answer: ω=39rad/s
Homework Equations
ω = √(mgd + kΔxd/I)
I think I would be treating the plank as a long...
Homework Statement
As the captain of the scientific team sent to Planet Physics, one of your tasks is to measure g. You have a long, thin wire labeled 1.80 g/m and a 1.30 kg weight. You have your accurate space cadet chronometer but, unfortunately, you seem to have forgotten a meter stick...
Homework Statement
Assume that there is a tank on a 200 ft pedestal type support. When full the tank and contents have a weight of 50,000 lbs and it is never drained to a point where the tank and contents have a weight less than 20,000 lbs. Assume the pedestal weight is negligible compared to...
Homework Statement
Tuning Fork A has frequency of 320 Hz. When it is sounded with Tuning Fork B, 14 beats are detected in 7.0 seconds. Elastic bands are placed on the tines of Tuning Fork B and the beat frequency drops down to 1.0 Hz. What was the original frequency of Tuning Fork B? Explain...
Homework Statement
Homework Equations
w = √k/m
w = 2π/P
ƒ = 1/P
The Attempt at a Solution
I feel like I'm so close to the answer, I think it has something to do with the fact that there's a spring and pulley in the system that is throwing my answer off. I have
√k/m = 2π/P
So,
P =...
I'm talking about equation 22,
Does anyone know how to derive this? It's Marin Mersenne's formula for fundamental frequency, but I'm perplexed as to how he derived it.
L would be the length, F would be force, and μ would be mass per unit length.
f is the frequency
Thanks
Hi! I am new in ansys. I am doing rotor dynamic study of a high speed rotating shaft. the shaft comprise of two discs and at the it ends the shaft is supported by the bearing I am facing problem in modelling stage please tell me how to model the bearing and disc briefly.I am uploading the image...
Homework Statement
When a train running at a speed of 72 km/h approaches a crossing signal, a passenger in the train hears the siren at 720 Hz. What frequency does the passenger detect after the train passes the crossing signal? Take the speed of sound in air to be 340 m/s.
Homework Equations...
I`ve been able to use excel to plot the trajectory of a harmonically driven duffing oscillator for arbitrary parameters using Runge-Kutta method. I would like to do the same thing for the frequency response, but I simply can not figure out how. I am not very mathematically advanced so the first...
Hello,
I am very much interested to how frequency of sound varies in water. Also, how the frequency varies with temperature and depth? What are the different formulas related to this? Secondly, how can we determine the best frequency of operation? I would be very thankful if anyone could answer...
Two bodies of mass m each are attached by a spring. This two body system rotates around a large mass M under gravity. Will there be any relation between frequency of oscillation of the two body system and frequency of rotation?
Frequency of small oscillations of a single body rotating in an...
Is there an accurate method in computing the 'sound' frquency of a planet? For example, taking the orbital path of say Jupiter for one year, and computing it into an audible frequency? I'm looking for ways to compute this, but I am at a loss to where the best starting point is. Could Bohr's or...
Homework Statement
The problem is attached
Homework Equations
f=2π/ω=2π√(m/k)
The Attempt at a Solution
My idea is that the mass doubles resulting in a √2 increase in the equation above. However, apparently the answer is (c). I have a strong feeling the book answer is wrong, but I wanted to...
Imagine that there is a stationary source that is propagating waves (such as sound waves). Let's say that the wave speed in the medium is 343 m/s. If I am an observer, and I begin to move towards the waves, will the wave speed increase due to the idea of relative velocities, or will only the...
Hi.
Dunno if this makes much sense.
If radiation is emitted from a star with a certain frequency, does that frequency change, if that radiation travels through areas of different temperatures?
Homework Statement
Consider a LTI system defined by the following difference equation: ##\mathrm{y}[n]=-2x[n]+4x[n-1]-2x[n-2]##
a) Determine the impulse response of the system
b) Determine the frequency response of the system
Homework Equations
DTFT...
I heard about a research where ac current is generared in metal covered nanotubes exposed to visible light, the same way as it does in receiving tv antennas.
Isn't there a limit to how quickly electrons can accelerate on a metal surface (because of inertia and maybe some extra factors) to...
Hey guys please help me on this...
The text says that we have to alter the open loop gain in order to compensate an amplifier. The open loop gain should be reduced below unity before sufficient phase shift develop to cause oscillation in the amplifier at higher frequencies..
My question is why...
So I was reading our lecture notes about generalising the motion of a string by considering it as a system of N masses, and one of the arguments was that no matter where you are on the string, each mass element will oscillate with the same frequency. This makes intuitive sense for an ideal...
If one were to apply, for example, 60 Hz AC to a piezoelectric material, would the strain rate be 60 Hz?
I am not entirely sure if I am using "strain rate" in its proper sense; I use it merely to describe what I imagine would be the rate at which the material expands and contracts while exposed...
Hello!
In this previous post, most replies point out that it is not possible to predict the angle of refraction (and so the frequency) at a certain interface, given the wavelength of the original signal.
In particular,
But when dealing with optical waveguides, it seems to be different. I am...
Good day
With reference to the following article: https://hal.archives-ouvertes.fr/hal-00506468
The measured frequency is given as 2922742936.729(13)MHz but right at the end of the article, the following is written:
"The hyperfine structure of the 1S level is well known and that of the 3S...
I know that when you get a current from a voltage (like calculating current through resistor), the current and voltage equations have the same frequency. Does this still hold for power P = VI ?
So assume V in Euler form, V(t) = Vcos(wt+theta) + jVsin(wt+theta) = V*ej(wt+theta) and in Phasor...
Is the Human body capable of creating any type of frequency ? Of course vocally but beyond that ... .
What devices are in existence that can measure or see frequencies of living things ?
Have there been experiments with documented results that shows frequencies created by the human body ?
My question is about RF frequency... The RFs are electromegnetics waves...That means they are one type of Light waves... right??
The other question is about perticular frequency of RF signals...When we want to transmit or receive some perticular frequency... we tune our radio at that perticular...
OK I'm about to grow (more) gray hairs...
Could some friendly soul smarter than myself kindly help me solve for both f and theta respectively in the following equation, please:
x = sin[ (pi*f*W)/c * sin(theta) ] / [ (pi*f*W)/c * sin(theta) ]
Getting stuck at "arcsin of arcsin" sort of...
I understand why a black body absorbs every frequency(it is the definition of a black body!) but i do not understand why it also radiates at all frequency spectrum.
Homework Statement
A cord vibrates with a frequency of 3.0 Hz when a mass of 0.60kg is hung up from it. What is its frequency if only 0.38kg hangs from it?
Homework Equations
f= 1/2pi sqrt k/m
The Attempt at a Solution
3.0= 1/2pi sqrt ( k/0.6)
k=213.18 N/m
f= 1/2pi sqrt (213.18/ 0.38)
f=...