Search
Close this search box.
Search
Close this search box.

EMF Glossary Definition

Hertz

The term “hertz” (Hz) is a unit of frequency in the International System of Units (SI), used to measure the number of cycles per second of a periodic phenomenon. It is a crucial measurement in various scientific and technical fields, including physics, acoustics, and electrical engineering, particularly in the study of waves, electromagnetic fields (EMF), and energy.

Understanding Frequency and its Measurement:
Frequency refers to the number of times a repetitive event occurs per unit time. In the context of waves, it’s the number of wave cycles (like peaks or valleys) that pass a point in one second. Hertz quantifies this, providing a measure of how fast the waves oscillate. For example, a wave with a frequency of 1 Hz completes one cycle per second.

Significance in Different Fields:

  1. Electromagnetic Fields (EMF): In EMF, hertz measures the frequency of electromagnetic waves, which include radio waves, microwaves, visible light, X-rays, and gamma rays. These waves have frequencies ranging from thousands of hertz (kHz) for radio waves to exahertz (EHz, or (10^{18}) Hz) for gamma rays. The frequency of electromagnetic radiation determines its properties and applications – for example, radio and TV broadcasting, cellular communication, and medical imaging.
  2. Sound Waves: In acoustics, hertz measures the frequency of sound waves, determining the pitch of a sound. Human hearing typically ranges from 20 Hz to 20 kHz (20,000 Hz).
  3. Electrical Engineering: In electrical engineering, hertz is used to describe the frequency of alternating current (AC) power supplies. Most household electrical systems operate at either 50 Hz or 60 Hz, depending on the region.
  4. Energy and Physics: The frequency of a wave is directly related to its energy. In quantum mechanics, the energy of a photon is proportional to its frequency, a relationship described by Planck’s equation ( E = h \nu ), where ( E ) is energy, ( h ) is Planck’s constant, and ( \nu ) (nu) is the frequency in hertz. This relationship is fundamental in understanding phenomena at atomic and subatomic scales.

Heinrich Hertz and the Naming of the Unit:
The unit hertz is named after the German physicist Heinrich Hertz, who made significant contributions to the field of electromagnetism. In the late 19th century, Hertz conducted groundbreaking experiments that validated James Clerk Maxwell’s theories of electromagnetism. He was the first to conclusively demonstrate the existence of electromagnetic waves by engineering apparatus to produce and detect UHF radio waves in the laboratory. His work laid the foundation for the development of modern wireless communication technologies.

Hertz’s experiments involved generating radio waves and measuring their properties, including frequency. His discoveries not only proved Maxwell’s theories but also opened up a new spectrum of electromagnetic radiation for exploration and application. In recognition of his contributions, the unit of frequency was named “hertz” in his honor during the 20th century.

Conclusion:
In essence, hertz as a unit plays a vital role across multiple scientific disciplines, providing a standard for measuring the frequency of oscillating phenomena. From defining the color of light to the pitch of a sound, from setting the timing of electronic circuits to determining the energy of a photon, the hertz is fundamental to our understanding and application of various forms of energy and waves. The legacy of Heinrich Hertz, encapsulated in the unit that bears his name, is a testament to the profound impact that fundamental research can have on technological advancement and scientific understanding.

Where do you carry your phone?

Want to Slash Your EMF Health Risks?

Want to Slash Your EMF Health Risks?

Good! Learn the one small change you should make right now.

Where do you carry your phone?

Want to Slash Your EMF Health Risks?

Want to Slash Your EMF Health Risks?

Good! Learn the one small change you should make right now.

Want to learn more about EMF?

Try these related articles...

are emfs dangerous them featured image

Are EMFs Dangerous Or Safe? Solved

are AirPods bad for you?

Are AirPods Bad For You? Revealing The Hidden Truth

laptop on lap

Is Using Your Laptop on Your Lap Safe? 4 Affordable Alternatives

Image depicting Oura Ring Vs Apple Watch

Oura Ring Vs. Apple Watch: Which One is Safer?

EMF protection phone case

The Best EMF Protection Phone Case for Your iPhone

sources of EMF radiation

10 Powerful Sources of EMF Radiation in Your Home

About the Author

R Blank is the CEO of Shield Your Body, which he founded in 2012. With hundreds of thousands of customers in over 30 countries, and having been interviewed on platforms including Dr. Phil, ABC news television and ElectricSense, R is an internationally followed expert on issues of EMF, health and safety. He also hosts “The Healthier Tech Podcast”, available Apple, Spotify and all major podcasting platforms. In the past, he served on the faculty at the University of Southern California Viterbi School of Engineering as well as the University of California, Santa Cruz. Previously, R ran a software engineering firm in Los Angeles, producing enterprise-level solutions for blue chip clients including Medtronic, Apple, NBC, Toyota, Disney, Microsoft, the NFL, Ford, IKEA and Mattel. He has spoken at conferences around the world, including in the US, Canada, New Zealand and the Netherlands, and he is the co-author, along with his father Dr. Martin Blank, of ‘Overpowered‘ from Seven Stories Press about the science of health effects of EMF radiation. He has an MBA from the UCLA Anderson School of Management and received his bachelor’s degree, with honors, from Columbia University. He has also studied at Cambridge University in the UK; the University of Salamanca in Spain; and the Institute of Foreign Languages in Nizhny Novgorod, Russia. Read more about R and SYB or connect with R on LinkedIn.

Have a Question?

I take pride in designing great, effective products, based on real, measurable science – AND taking the time to ensure that each and every one of you has the information you need to understand EMF and make informed decisions.

So if you have a question, just email me and ask.

R Blank
CEO, SYB