No frequencies in that range appear on the list you provided with the question.
They are methods of transmitting signals (speech, music,data etc) on carrier frequencies. FM is Frequency Modulation where the carrier frequency is modified by the signal frequency. AM is Amplitude Modulation where the carrier amplitude (size) is modified by the signal
The frequency range of a baritone is from 110Hz-425Hz
The frequency range of a baritone is within the frequency range of normal spoken voice. High frequencies and very low frequencies sets up harmonics that induce a vibration, when these frequencies conflict that's when glass breaks. The baritone range is almost in the middle of these two and thus can't set up the vibration needed to induce a damaging harmonic
A typical piano has a range of at least 7 octaves; for comparison, the range of human hearing is about 10 octaves.
That would be a spectrum or band.
See page 101 of your study unit. In there you will find that radio frequencies used by commercial radio broadcasting stations range from about 550,000 Hz to 1,700,000 Hz.
In the USA ... -- Commercial AM radio stations operate with carrier frequencies spaced every 10 KHz between 550 KHz and 1700 KHz. -- Commercial FM radio stations operate with carrier frequencies spaced every 200 KHz between 88.1 MHz and 107.9 MHz.
The frequency range of a maracas typically falls within the percussion instrument category, producing a wide range of frequencies. The lowest frequencies produced by a maracas are around 200 Hz, while the highest frequencies can reach up to 10,000 Hz or more. This wide range of frequencies is due to the varying sizes and materials used in the construction of maracas, allowing for a diverse sound profile.
The frequency that falls in the range of RF waves used by commercial radio broadcasting stations is 3 kHz to 300 GHz. This is the frequency of radio waves and the alternating currents that carry them.
The range of frequencies that can be transmitted is called the bandwidth. It refers to the range of frequencies within a signal that can be effectively transmitted through a communication channel.
The human ear is less sensitive to low frequencies compared to mid-range frequencies. Below 100 Hz, the ear requires higher sound pressure levels to be perceived as equally loud as sounds in the mid-frequency range. This is because the ear is designed to be most sensitive to frequencies between 2,000 and 5,000 Hz, which is where human speech falls.
there are an infinite range of frequencies limited only by the mechanical limitations of the medium creating and transferring it.
Radios can use a range of frequencies, but they typically operate in the range of high frequencies, which are better for long-distance communication. AM broadcasts, for example, use lower frequencies, while FM broadcasts use higher frequencies.
The visible portion of the electromagnetic spectrum falls between ultraviolet (UV) and infrared (IR) radiation. It is the range of wavelengths that humans can perceive with their eyes, typically spanning from approximately 400 to 700 nanometers.
Generally FM radio range is from 88 MHz to 108 MHz. Frequencies are issued to commercial broadcasters by a government authority. Broadcasters need a licence to use a frequency. This description may change depending on the country.
Humans can typically hear frequencies in the range of 20 Hz to 20,000 Hz, with the ability to hear higher frequencies declining as we age. This range is often used as a standard for audio equipment and music production.
Frequency spread refers to the distribution or range of frequencies present in a signal or sound. It describes the spacing and coverage of individual frequencies within a given range. A wider frequency spread means there is a greater variety of frequencies present, while a narrow spread indicates a more limited range of frequencies.