3 per second = 3 Hz
They terms frequency are essentially the same, except radio waves are electromagnetic, and acoustic waves are pressure waves. An audio frequency is a range of frequencies that we can hear, approx up to 20Khz, anything past 20Khz is said to be radio waves
Science, or more specifically, physics is related to the piano. For example, some physics terminology related to the piano include oscillations, traveling waves, standing waves, and frequency. Frequency, the measurement of how fast an oscillation is changing, is very important to a piano. Frequency will increase with the stiffness of the strings in the piano. A scenario to show how important frequency is the tuning between a piano and another instrument. If they have different frequencies, the ear will be able to catch it due to the clashing of their sound waves.
The really nice thing about radio waves is that they will make the electrons in a piece of copper wire move; this means that they generate electric currents in the wire. In fact it works both ways: alternating currents in a copper wire generate electromagnetic waves, and electromagnetic waves generate alternating currents. The electric currents at "radio frequencies" (rf) are used by radio and television transmitters and receivers. I use frequencies of 145MHz (VHF), 14MHz (20m HF) and 3.7MHz (80m HF).
Don't Make Waves was created in 1967.
The radio wave part of the spectrum is very wide. The extreme ends are, roughly,15km ( used for communicating with submerged submarines)1 mm ( used for research, and possibly for radar)The visible spectrum covers only a 2:1 range of wavelengths. It is centred on the colour yellow, with a wavelength ~= 700nm.The very shortest of the radio waves is about 1000 times as long as yellow light.
What kind of waves? Water waves? Sound waves? Low frequency water waves move the boat up and down slower. Lower frequency sond waves make a lower town, but if its too low the human ear can't hear it. Or maybe you are talking about Electric and Magnetism? You should give more info in the question. It is too general.
ultrasound
If only there were an equation that related the speed of EM waves, wavelength, and frequency... c=(wavelength)(frequency) Make sure and keep your units straight.
No you cannot. This was tested and showed that the frequency's wernt strong enough to do anything
Microwave cookware can be made from a variety of materials. The biggest material used is polypropylene to make microwave cookware. Glass and organic minerals can also be used to make microwave cookware.
P waves - compress and expand the ground like a Accordion S waves - vibrate from side to side as well as up and down Surface waves - make the ground roll like ocean waves The Earthquake is produced by each of the three types of seismic waves.
Wavelength and frequency are inversely proportional. The higher the frequency, the shorter (lower) the wavelength. Energy is proportional to frequency, and higher frequency waves will have a higher energy. Mathematically, frequency = 1 divided by wavelength, or f = 1/λ Use the link below for more information, including a diagram or two to make things clearer.
make three rights to make a left. haha.
The wavelength of a wave would double if the frequency was cut in half. Wavelength=c/frequency where c equals the speed of light.
They terms frequency are essentially the same, except radio waves are electromagnetic, and acoustic waves are pressure waves. An audio frequency is a range of frequencies that we can hear, approx up to 20Khz, anything past 20Khz is said to be radio waves
P waves - compress and expand the ground like a Accordion S waves - vibrate from side to side as well as up and down Surface waves - make the ground roll like ocean waves The Earthquake is produced by each of the three types of seismic waves.
P waves - compress and expand the ground like a accordion S waves - vibrate from side to side as well as up and down Surface waves - make the ground roll like ocean waves The Earthquake is produced by each of the three types of seismic waves.