If the frequency is increased the wavelength will be decreased. Wavelength lambda and frequency f are connected by the speed c of the medium. c can be air = 343 m/s at 20 degrees celsius or water at 0 dgrees = 1450 m/s. c can be light waves or electromagnetic waves = 299 792 458 m/s. The formulas are: c = lambda x f f = c / lambda lambda = c / f
Multiplying (wavelength) times (frequency) always gives the same answer ... the speed of the wave.
So if the wavelength increases, the frequency has to decrease, in order for their product to be constant.
The frequency of a wave is inversly proportional to the wavelength of a wave. Therefore if the wavelength were to increase, the frequency of will decrease.
I think that the pulse will start to decrease
When we consider the frequency of a square wave, we can indeed equate that with the baud (not baud rate), which is the number of pulses per second.
An analogue signal is not a series of pulses. An analogue signal is a continuous signal which is modulated (changed) in some way to carry information. Common modulations for analogue are Amplitude Modulation (AM), and Frequency Modulation, (FM). There are some others but are not needed here.
The distance from one peak to the next peak
Having two pulses is not a good thing. It means that the pulse in your right hand is different than in your left hand.
pulses
Wavelength shortens as frequendcy increases.
By low frequency pulses.
If ten pulses pass you each second, moving at 300cm, then the pulses are 30 cm apart.
A popular modern, traction, motor used in the hubs of cycles and quaricycles, is the induction motor. This uses pulses on alternate windings, provided by electronic control unit. The speed is increased by increasing the frequency of the pulses.
probably (the carrier frequency +- the maximum frequency of the pulse train)/(the carrier frequency) but pulses have a lot of harmonics
You hear 'beats', or pulses, and these pulses happen at a frequency which is the difference between the frequencies of the nearly identical tones.
banana
NO; frequency is the number of cycles per second or micro second. Pulse is the number of pulses per second in a pulsed Radar
Video signals contain horizontal and vertical sync pulses. In an NTSC signal, the vertical sync pulses are around 60 Hz, and they are of a higher amplitude than the signal, contributing a significant 60 Hz component in the frequency domain. The horizontal sync pulses, typically at 15750 Hz, also contribute to the spectrum.
Vibration is the action that produces pressure pulses through the air. These pressure pulses (within certain frequency ranges) are picked up by the ear converting them to sound. Speakers vibrate to produce such pressure pulses - the more accurate they are the better for sending clean pulses through the air. All speakers will have a certain frequency range they are best at producing. That is the reason there are woofers, tweaters, mid range, etc types of speaker - to cleanly produce pressure pulses within a certain frequency range the ear can hear.
When we consider the frequency of a square wave, we can indeed equate that with the baud (not baud rate), which is the number of pulses per second.
Output of the 50 Hz full-wave rectifier consists of 100 Hz positive pulses.