Choose a Measurement
Select a measurement and convert between different units
Single conversion
To convert from kilohertz (kHz) to megahertz (MHz), use the following formula:
Let's convert 5 kilohertz (kHz) to megahertz (MHz).
Using the formula:
Therefore, 5 kilohertz (kHz) is equal to megahertz (MHz).
Here are some quick reference conversions from kilohertz (kHz) to megahertz (MHz):
| kilohertz | megahertz |
|---|---|
| 0.000001 kHz | MHz |
| 0.001 kHz | MHz |
| 0.1 kHz | MHz |
| 1 kHz | MHz |
| 2 kHz | MHz |
| 3 kHz | MHz |
| 4 kHz | MHz |
| 5 kHz | MHz |
| 6 kHz | MHz |
| 7 kHz | MHz |
| 8 kHz | MHz |
| 9 kHz | MHz |
| 10 kHz | MHz |
| 20 kHz | MHz |
| 30 kHz | MHz |
| 40 kHz | MHz |
| 50 kHz | MHz |
| 100 kHz | MHz |
| 1000 kHz | MHz |
| 10000 kHz | MHz |
For all Frequency converters, choose units using the From/To dropdowns above.
A kilohertz (kHz) is a unit of frequency in the International System of Units (SI), equal to one thousand hertz (1000 Hz). The plural form is kilohertz.
It's a term you'll encounter in everything from sound and radio to the history of computing.
Your ability to perceive sound, from the deepest bass to the highest treble, is measured in hertz and kilohertz.
The range of human hearing typically falls between 20 Hz and 20 kilohertz (20,000 Hz).
The frequencies most sensitive to the human ear, particularly for understanding speech, are concentrated in the range of 1 to 4 kHz. This is why audio engineers and audiologists pay close attention to this specific spectrum when mixing music or conducting hearing tests.
Kilohertz is the fundamental unit used for AM (Amplitude Modulation) radio broadcasting.
AM radio stations operate in a frequency range from 535 to 1705 kilohertz in the Americas, often referred to as the medium wave band.
Each station is assigned a specific frequency, like 820 kHz or 1010 kHz, which your radio receiver tunes into to capture the broadcast signal. This contrasts with FM radio, which broadcasts in the much higher megahertz (MHz) range.
While today's computers boast processor speeds in gigahertz (GHz), the pioneers of computing operated at much slower speeds measured in kilohertz.
For instance, the Intel 4004, the world's first commercial microprocessor, was released in 1971 with a clock speed of just 740 kHz.
Beyond computing, kilohertz frequencies are also crucial in other technologies. A key example is medical ultrasound, where transducers emit sound waves in the high kHz to low MHz range to create diagnostic images of the body's organs and tissues.
A megahertz (MHz) is a unit used to measure frequency, and it's equal to one million hertz (Hz).
Think of it as a way of counting how many times something happens per second. You'll encounter this measurement in various parts of modern technology, from your car radio to the computer on your desk.
Megahertz is the standard unit for measuring radio frequency, especially for FM (Frequency Modulation) radio.
When you tune your radio to a station like "98.7 FM," you're actually selecting a specific broadcast frequency of 98.7 megahertz.
Each station in the FM broadcast band (which typically spans 88 to 108 MHz) is assigned its own unique frequency.
This prevents signals from overlapping and interfering with each other, allowing your radio to isolate and play the desired station clearly.
In the world of computer processors (CPUs), it's a common misconception that a higher megahertz (MHz) or gigahertz (GHz) rating automatically means better processor performance.
This concept is often referred to as the "megahertz myth."
While clock speed (the rate at which a processor executes instructions, measured in MHz or GHz) is a part of the puzzle, it isn't everything.
A modern processor's overall speed and efficiency depend more on other key factors, such as:
Because of this, a newer processor with a lower clock speed but a more advanced design can easily outperform an older one with a higher clock speed.
The unit "hertz," and by extension megahertz, is named in honor of the German physicist Heinrich Hertz.
In the late 1880s, Hertz was the first person to definitively prove the existence of electromagnetic waves—something that had only been a theory until then.
His foundational work paved the way for nearly all modern wireless technology, including radio, television, and Wi-Fi. Naming the unit of frequency after him is a tribute to his groundbreaking discoveries.