Coming Soon
What is more arbitrary of a measurement, the foot, the Meter, or a new unit that makes Physics easier to understand and correlate with Geometry and Algebra?
Is the Second more important than the First if the First is known as Velocity aka Speed of Light which equals 299792458 m / s or 3 units of distances?/unit of cycles? What if One Unit of Distance in Physics had a new Symbol and it equals the current speed of light measurement for meters 299 792 458? So that 299792458 meters equals the new symbol for light-distance. An atomic second is the precise unit of time defined by the frequency of radiation from a cesium-133 atom, specifically 9,192,631,770 oscillations between two energy levels, providing an incredibly stable standard far more accurate than astronomical time, enabling modern technologies like GPS and telecommunications. What if the new 299792458 Distance Unit were divided by the amount of 9,192,631,770 cycles specific to microwave frequencies (cycles) emitted by cesium atoms. What would that do to Physics Equations if you make the lowercase ‘c’ which is the speed of light equal to One QuantumDistanceUnit [divided by] One [QuantumTimeUnit] ?
What will the next atomic clocks do to the formula?
Distance(s) into Wave-Length(s) into Time Measurement(s) into Symbol(s)? What Symbols mean in Physics and how it changes in Mathematics. Is there a Universal set of Symbols that make more sense than the current ones used between Physics and Maths?
Velocity(s) and Speed(s) = Distance(s) Divided By Time(s)
Wave-Length(s) Cycle = One Full Revolution of a Circle using the greek TAU Symbol as 2 multiplied by the greek PI symbol.
The primary wavelength formula is λ = v / f, where λ (lambda) is the wavelength, v is the wave's speed (velocity), and f is its frequency; it means wavelength is found by dividing the wave speed by its frequency, with units typically in meters (m), meters per second (m/s), and Hertz (Hz) respectively. For light, the speed is the constant speed of light (c), so the formula becomes λ = c / f.
Key Formulas
General Waves: λ = v / f
λ (Wavelength): Distance between two identical points on a wave (e.g., crest to crest), measured in meters (m).
v (Wave Speed/Velocity): How fast the wave travels through a medium, in meters per second (m/s).
f (Frequency): Number of wave cycles per second, in Hertz (Hz).
Light Waves (Electromagnetic Radiation): λ = c / f
c (Speed of Light): A constant in a vacuum (approximately
3×1083 cross 10 to the eighth power
3×108
m/s).
How to Use It
Identify Knowns: Determine the wave's speed (v) and its frequency (f).
Apply Formula: Plug the values into λ = v / f.
Calculate: Perform the division to find the wavelength (λ).
Check Units: Ensure units are consistent (e.g., meters, seconds, hertz) for a correct answer in meters.
One unit of Distance is equal to the speed of Light multiplied by a Time Period known as a cycle or vibration frequency of a physical element in the Universe.
c = d / t
d = c * t
t = c / d
If d=1, t=1, then c = 1
D = Displacement of a Point or Sphere from original Z,Y,N,X coordinates to final Z,Y,N,X coordinates
Sphere or Point 1:
Time = t’
Sphere or Point 2:
Time = t' + 1 cycle;
Geocentric(s):
N-Axis := Whole Numbers
Y-Axis := Upward and Downward
X-Axis := Side to Side
Z-Axis := Forward & Backward (North & South)
https://svs.gsfc.nasa.gov/4217
Geocentric (GEO): This is the coordinate system useful for measuring things close to Earth’s surface. The origin is chosen at the center of Earth. The x-axis points from the center of Earth through the Prime Meridian (by convention chosen as the meridian in Greenwich, London, UK (longitude = 0). The z-axis points towards the north geographic pole.
Geocentric Earth Inertial (GEI): This coordinate system is fixed relative to the distant stars, so Earth rotates about the z-axis relative to it. The origin of this coordinate system is at the center of the Earth. The x-axis points to the first point in Aries (Wikipedia: Vernal Equinox) and the z-axis points to the north geographic & celestial pole. The direction of the celestial pole changes due to Earth’s rotational precession (Wikipedia).
Geocentric Solar Ecliptic (GSE): The origin is at the center of the Earth. The x-axis is along the line between Earth and the Sun. The z-axis is the north ecliptic pole and is fixed in direction (but for slow changes due to Earth orbital changes).
Solar Magnetic (SM): the origin is at the center of the Earth. The z-axis is chosen parallel to the Earth magnetic dipole axis. The y-axis is chosen to be perpendicular to the z-axis and the Earth-Sun line (pointing towards dusk).
Geocentric Solar Magnetospheric (GSM): The origin is at the center of the Earth. The x-axis is defined as the Earth-Sun line (same as in GSE). The y-axis is defined to be perpendicular to the plane containing the x-axis and the magnetic dipole axis so the magnetic axis always lies in this plane.