The Frequency of Energy
Nikola Tesla said, "To understand the universe, think in terms of energy, frequency, and vibrations."
Einstein's photoelectric effect proved that the frequency of light determines the energy of light.
Thus he proved that light contains particles called photons.
Photons exist in many levels of energy. The frequency of photons determines the energy.
Radio waves have a low frequency and low energy, and X-rays have a high frequency and lots of energy.
Atoms also have a wave-particle nature, just like photons. The atoms inside matter vibrate at a frequency that determines their energy level.
For example, water has many levels of energy. Solid water or ice has a low frequency.
When ice melts, it passes through a phase transition into liquid water with a higher frequency.
When you boil water, the frequency moves into another phase transition and changes into gas with a high-frequency level.
Increasing the Frequency of Matter
Energy cannot be created or destroyed, but it can change into other things.
Energy is in all matter as mass, heat, gravity, pressure, motion, nuclear, frequency, and other types.
If more energy is added to atoms, then the frequency of atoms increases.
But the power of frequency is overlooked as a fundamental force that can change matter into higher energies.
Frequency is a description of the level of energy in matter.
A force of energy would raise the frequency of matter. For example, you can add heat to water and raise its frequency.
Does the universe have energy levels of frequency just like water's many levels of frequency?
The Sun runs on nuclear fusion reactions that give us high-frequency energy, and the Earth's magnetic shield protects us from harmful radiation.
The force of gravity on Earth maintains matter at a certain energy level, commonly referred to as standard temperature and pressure (STP).
Earth has a frequency known as the Schumann resonance.
The Earth behaves like a gigantic electric circuit. Its electromagnetic field surrounds and protects all living things with a natural frequency of 7.83 hertz.
The so-called “Schumann resonance” is named after physicist Dr. Winfried Otto Schumann, who predicted it in 1952.
Is this frequency a mechanism that can add a higher frequency to Earth from the energy levels of the universe?
Examples of Higher Frequencies
Many animals and insects can hear higher frequency sounds.
For instance, bats use sonar to navigate at night, and whales use high-frequency sounds for communication.
Birds and butterflies use Earth's magnetic field to navigate during winter retreats.
I am familiar with the frequency of a motor or the frequency of a computer's RAM.
Another use of frequency is to keep clocks running at the correct speed.
Quartz crystals have a frequency that keeps accurate time in watches, but atomic clocks use the frequency of atoms for much greater accuracy.
You have probably heard the high pitch sound of a dentist's drill or a variable speed motor.
Motors run at a frequency of 50 or 60 cycles per second, depending on which country.
It's possible to increase a motor's frequency to make it run at a higher speed.
The Earth has a solid iron core, and it acts as a motor.
The iron core spins and causes the Earth's magnetic field that protects the planet's atmosphere and life.
Without the magnetic field, Earth's atmosphere would have been eroded by the solar wind from the Sun.
The iron core and the Earth rotate every 24 hours. But think about the Earth's spin based on motion instead of time.
The Earth's Day and Year During 4 Billion Years
A day has not always been 24 hours long. A day began at 4 hours for one revolution.
This extreme variation was explained by planetary scientist Takanori Sasaki from Kyoto University.
He said the moon crashed into the Earth 4 billion years ago.
"Four billion years ago, a day was 4 hours long, and it took 2,190 days to orbit the sun.
Two billion years ago, it took 800 days to make one year, and each day was 11 hours. It took approximately 8760 hours for the earth to orbit the sun.
One billion years ago, it took 500 days to make one year, and each day was about 17 hours. It took approximately 8760 hours for the earth to orbit the sun.
1/2 billion years ago, it took 450 days to make one year, and each day was 19 1/2 hours. It took approximately 8760 hours for the earth to orbit the sun."
As the moon moved away, Earth’s spin slowed down, and the number of hours in a day changed.
Today, it takes 365 days for one year, each day is 24 hours, and it takes approximately 8760 hours for the Earth to orbit the sun.
There are fewer days now in one orbit because the Earth’s rotation has slowed down, but the Earth’s orbit around the sun is still the same.
Since 1969 the moon has been moving farther away from Earth by 3.8 cm per year.
So, they assume that the moon was closer in the past.
Imagine all the motion and energy that happens to Earth.
The Earth is a living thing that responds to many elements.
Can the Earth increase its frequency and energy level?
When the moon moves away from the Earth, the frequency of Earth could increase.
Maybe the volcanos and earthquakes might explain why the Earth's resonance is rising?
Since 1900 the Earth has had more earthquakes each year, but they are mainly smaller and with fewer high magnitude quakes.
I wonder if the Earth is spinning faster again and giving us a shorter day?
I am trying to find reasons why time seems to move faster.
Faster Frequency Faster Time
A lot of movement happens to the Earth.
Science used the motion to invent clocks that tick at the same speed as Earth’s rotation.
They say that the activity has changed as the moon is moving away.
However, it takes millions of years to notice these changes.
Could a frequency in the universe rapidly change the frequency on Earth?
Our solar system is moving at the speed of 220 km/sec around the Milky Way Galaxy, and the galaxy is moving with the accelerating expansion of the universe.
If we move into higher energy levels, Earth will gain energy.
More energy means a higher frequency, and a higher frequency of the cesium atom would mean that the time on the clocks is moving faster.
Time is what a clock shows, and time is a measurement of the frequency of atoms.
But clocks don't measure frequencies.
Clocks count the number of photon oscillations between the energy levels of orbital electrons.
Each time a clock counts 9,192,631,770 oscillations of the cesium-133 atom, one second occurs.
That's an awful lot of counting in one second. Are they sure they didn't miss any? Just saying...
It feels like time is moving faster. I want to know if it's true.
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