It is random.
"sweep rate" refers to "how fast" you go through a frequency range when performing a vibration test. For example, let's put an equipment on a shaker and see how it responds to a sine excitation having a frequency between 50 and 2000Hz. The rate at which you will vary the frequency between 50 and 2000Hz is called the "sweep rate". It can be measured in Hz/min or octave/min.
sine wave.
Surfing on Sine Waves was created on 1993-01-11.
The effort required is directly proportional to the sine of the angle of inclination.Since the sine of an angle increases with increase in angle, therefore the effort required also increases.
Do you mean "How do sine waves generate ?" Or perhaps you mean "How are sine waves generated?" Or something else, perhaps? No one can answer a question that is incomprehensible.
For any pure note, the vibration of the string or the compression waves of air is a sine (or cosine) curve. Harmonic notes are sine curves whose frequencies are multiples of the basic frequency.
The sound coming from the bell, and the vibration of the bell itself, is described as simple harmonic motion. The graph would be a diminishing sine wave.
sine 810 = sine 90 = 1
The compression and rarefaction of the medium in which the sound is propagated can be modelled by a sine curve. You can see a half-wave in the vibration of a string on musical instruments or even a stretched elastic band.
Sine(A+ B) = Sine(A)*Cosine(B) + Cosine(A)*Sine(B).
Sine 3.3 degrees is about 0.057564. Sine 3.3 radians is about -0.157746. Sine 3.3 grads is about 0.051813.
M. W. Kehoe has written: 'Modified U.S. Army U-8F ground vibration test' -- subject(s): Modal analysis, Testing, Airplanes 'Correlation of analytical and experimental hot structure vibration results' -- subject(s): Airplanes, Design and construction 'Ground vibration test results of a JetStar airplane using impulsive sine excitation' -- subject(s): Testing, Airplanes
Because the argument of the sine function can have any real value. In fact, it can extend beyond that but that is for more advanced level students.
Sine does not converge but oscillates. As a result sine does not tend to a limit as its argument tends to infinity. So sine(infinity) is not defined.
It is more reasonable to use square wave rather than sine wave signal to determine slew rate. Both signal sources serve as a functional generator with the sine wave providing high purity waves.Ê
The sine of 0 is 0.
sine dine