An infinite number of sounds can be mixed together into a single sound wave. The different frequencies don't matter, unless they are specific frequencies that cancel each other out. You'll notice that, even though you have only two ears, you can still hear all those sounds at the same time.
A violin's stings vibrate at a literally infinite number of frequencies, so that is a vibration.Oscillations occur when vibrations, from several sources, all have the same or very, very, very similar frequencies combine and become enhanced.
Because radio control relies on different frequencies. Since frequencies are involved in the process, an audio amplifier can be used to amplify alternating currents (currents that change), and it does the same job.
No, mixing is adding two signals together, modulation is more like multiplying two signals. IN mixing, the result has the same frequencies as the input signals. In modulation, the result is the sum and difference frequencies.
A: Is the same as low frequency except it becomes a predominant factor.
A band-pass filter blocks or attenuates frequencies outside of a certain range, while it accepts frequencies from within that range. The range of frequencies it will accept is determined by its Q-factor. A filter with a high Q-factor will have a narrow range of accepted frequencies, whereas a filter with a low Q-factor will have a wide range of accepted frequencies.
No. The frequencies determine the sound.
There will be no interference because the antennas are on different frequencies.
Same pitch but with different loudness
no
Most car horns are built to emit a combination of two sounds of different frequencies, like what you would hear if two trumpet players each tooted a different note at the same time. Both sounds are typically somewhere in the neighborhood of a few hundred Herz.
A violin's stings vibrate at a literally infinite number of frequencies, so that is a vibration.Oscillations occur when vibrations, from several sources, all have the same or very, very, very similar frequencies combine and become enhanced.
Traveling in the same medium, they have the same speed - just different frequencies (and wavelengths).
No. The eardrum (also known as the timpanic membrane) is a membrane that helps amplify sounds. The cochlea is deeper inside the ear, behind the eardrum. It is like a tube with little tiny hairs that vibrate at different sound frequencies which transmit information to the brain to help us percieve sound at different tones and pitches.
the DNA remains the same. just different parts of it get translated
It seems like you are looking for "gas". Atoms in a solid vibrate at very high frequencies (but I wouldn't consider that "moving" in the general sense), and atoms in a liquid vibrate at close to the same frequency but move around and past each other, though not as fast as in a gas.
To alternate between constructive and destructive interference requires different frequencies.
They should both be playing the same pitch, if that is a problem then they are "out of tune." Each different instrument makes a different sound because the strings vibrate differently creating different harmonics. Also, the piano string is struck by a hammer and the violin string is played by drawing a bow across it, causing it to vibrate.