Has a Con been at play to keep information from you that Could help you vibrate at a higher frequency?

Consider the difference from the King James Bible after they removed certain books and check out WHERE they removed certain words!
The difference is astounding.

Here is what it says in the King James you have today,

now this is what it says in the Geneva Bible of 1560

You see what they left out?
and against the worldlie governours!

That's interesting right?
Do you know who the Republican Party in California recently tried to keep off of the ballot for Secretary of State.

10th largest economy in the United States, so they do Not want to give up that control!

The Cepher comes with the Books of the Apocrypha in it!

How was it the Rulers of the World's job to decide to keep this from us?

You know why they did it!

The Geneva Bible

From a broadcast decades ago!

Crystals and Science; energies, frequencies and vibration

NOTE: Radios, tv transmitters, clocks

We also know as noted in various research articles where I have shown you my work on watches. . .> vibrate at a frequency of 32768 Hz. In modern standard-quality quartz clocks, the quartz crystal resonator or oscillator is cut in the shape of a small tuning fork (XY-cut), laser-trimmed or precision lapped to vibrate at 32768 Hz. [remember hertz = hertz, unit of frequency. The number of hertz (abbreviated Hz) equals the number of cycles per second]

Check out what tuning forks can do,
This is super short,
Tuning forks as resonators

Using a tuning fork

Check out how a single tuning fork can cause an identical one to resonate at the very same pitch!

Check out also what happens when Interference is created and how!
Are BEATS created?

What does these represent? [Sound Waves?]

The beats produced per second refers to the difference between the frequencies of the two tuning forks. Formula used: The frequency of the beats produced is given by, ${f_{beat}} = {f_1} - {f_2}$ where ${f_1}$ and ${f_2}$ are the frequencies of the two sound waves.

https://www.vedantu.com/question-answer/a-tuning-fork-of-unknown-frequency-produces-4-class-12-physics-cbse-5f9714e3f231cf558a31023a

Reducing pain with tuning forks

Crystals can amplify the healing vibrations of the tuning fork being used.

Conversely, electrical charges produce mechanical stresses.

If voltage is applied to the crystal, it will vibrate.

The amplitude of these vibrations are much greater at one frequency,
than at any other frequency.
This one particular frequency is called
the natural resonate frequency of the crystal.

Some of the crystal substances that possess piezo electric charicteristics.
Rochelle Salt

Potassium sodium tartrate tetrahydrate, also known as Rochelle salt, is a double salt of tartaric acid first prepared by an apothecary, Pierre Seignette, of La Rochelle, France. Potassium sodium tartrate and monopotassium phosphate were the first materials discovered to exhibit piezoelectricity.
Tourmaline
Quartz

Rochelle salts exhibit the piezo electric effect to the greatest degree.

Quartz crystals are generally used because they have a greater mechanical strength.

Quartz crystal has a hexagonal cross section, in it's natural form has 6 sides and pointed ends.

The frequency of a crystal is dependent upon it's thickness.

The frequency of a thinner cut crystal is greater than the frequency of a thicker cut one.

This will always hold true, the thinner the crystal cut, the higher the frequency of oscillation.

When an extremely high degree of frequency stability must be maintained, the crystals are placed in a temperature ovon.

This is a thermostatically controlled container or chamber used to maintain the temperature at it's proper range.

In doing this, it gives a higher range of frequency stability.

A typical Q value for a quartz oscillator ranges from 104 to 106, compared to perhaps 102 for an LC oscillator [An LC Oscillator converts a DC input (the supply voltage) into an AC output (the waveform)].
The maximum Q for a high stability quartz oscillator can be estimated as Q = 1.6 × 107/f, where f is the resonant frequency in megahertz.

the Q value, is a very important electrical parameter of a crystal oscillator,

Frequency stability is a significant feature of any given oscillator. A good oscillator must be able to inject constant frequency output under varied load environments.

Quartz crystal oscillators have received much attention due to their ability to overcome the electric challenges that have affected the frequency stability of oscillators, including changes to the oscillator's direct current input power voltage, temperature variations, and load variations.

Oscillation is the repeated variation in current or voltage in a given electrical circuit that results in a periodic waveform. The number of times the cycle is repeated per second gives the oscillation frequency. The electronic device that produces oscillation is known as an oscillator.

https://eepower.com/technical-articles/introduction-to-quartz-crystal-oscillators/#

The Q of an LC Tank circuit is generally no greater than 2,000.

The Q of a quartz crystal is sometimes as great as 30,000.

a capacitor is a device that stores electrical energy by accumulating electric charges on two closely spaced surfaces that are insulated from each other. It is a passive electronic component with two terminals.

As the capacitor is discharging, it's losing energy.
The inductor.
The inductor is being charged by the capacitor.
As current flows in the inductor, the inductor creates a magnetic field.
The strength of this field is dependent on the amount of current flowing to the inductor.
As the current increases, the magnetic field created by the inductor expands.
After the current reaches it's max and begins to decrease, the magnetic field inside the inductor begins to collapse or decrease.
When it is decreasing, the inductor is releasing the stored energy it acquired from the capacitor.
So it's putting that energy back into the circuit.
When a magnetic field collapses, the polarity across the inductor will be reversed.
So the current will flow from the positive terminal of the conductor towards the negative terminal.
As the inductor releases the stored energy
the capacitor is absorbing that energy, thus the capacitor is being charged.
During the collapse, the inductor tries to maintain the decrease in current,
which is why the polarity reverses.
After the capacitor has been charged, it is going to discharge into the inductor.

Because current was flowing into one terminal of the capacitor, the polarity reverses.

Once the capacitor receives the energy from the inductor,
it releases that energy back to the inductor.

So current will flow from the positive terminal of the capacitor to the negative terminal of the capacitor.
This is conventional current not electron flow.
Electron flow is in the opposite direction.
in an LC Oscillator, energy is constantly being transferred back and forth from the capacitor to the inductor and vice versa.
While one element is being charged, the other is being discharged.

These oscillations will not continue indefinitely without an energy source being applied to it.
Oscillations will lose amplitude over time.

As energy flows back and forth between the capacitor and inductor, some of that energy is lost through the resistance of the circuit.

It can be lost in the form of heat.
Think of conductors, wires, the internal resistance of the inductor all will dissipate energy.
Over time the oscillations will average out to zero.

Unless there is feedback provided to the circuit, so if one can apply energy to the oscillator periodically, the oscillations can be maintained.

This means some kind of feedback must be introduced in order for those oscillations to continue.

The crystal would have better frequency stability.

The phonetic symbol for a crystal used in an Oscillator Circuit.

The big advantage of a crystal is it's frequency stability.

A quartz crystal has a very high Q giving us a narrow band width.

See more below this in a reply on Tourmaline properties.