The End of the Subuniverse

The Earth is located within the equatorial section of a black hole known as the "Milky Way". Many of the galaxies of the Milky way has already entered into the black hole. They became gray holes that are reverse polarized. The reverse polarization is the reason the gray hole function differentially from others.
All of the equator is being attracted magnetically to the black hole; as well as the north and south polar regions. When they enter the black hole in excess of 50% of the total groups, The remainder will enter extremely quickly. That will cause 3 major explosions/ implosions that will further result in 2 more explosions/ implosions.
The first 3 explosions will be the collision of the galaxies within the black hole. That will cause sufficient pressure to exude into surrounding areas of the extrinsical Galaxies. When that occurs, 2 more major explosions/ implosions will occur:
[1] The first explosion will reach throughout the entire subuniverse.
[2] The second will reconstruct the entire subuniverse.
Some life forms will be totally disintegrated; while others will be converted seemingly slightly. After that, there will be a perpetual life state for most life forms that are unstable.

Analytical Devices for Space Travel

Necessary equipment space analyses equipment includes: [1] Long Distance Microscope similar to: http://www.company7.com/questar/microscope.html The microscopes are used to magnify down to 1 attoinch space for deep space viewing. This is necessary for hyperlight speed travel. [2] Optical Spectrometer used to observe photonic emissions from Infrared to cosmic radiation emission. This is similar to: https://en.wikipedia.org/wiki/Optical_spectrometer This system is designed for deep space utilization. [3] High Speed Computer: I designed a computer that has 10 exponent 48 cycles speed. The database computer is only 10,000 times speed of green light speed. [3] Long Distance AA [Atomic Absorption] Spectrometer: This utilizes existing radioactive energies for analyses of stellaric materials. This is similar to: https://en.wikipedia.org/wiki/Atomic_absorption_spectroscopy [4] Extremely wideband Infrared Analyzer with Ultranarrow bandwidth Resolution: This assists in determining Quantitization of Ultraviolet waveforms; as well as Solaric Data. http://hurleyir.com/thermography/?gclid=CjwKEAjwz4u9BRCbioK3stnBznESJADA75xbT9lTpRAQeZwgV7lRn3deN60bnIuZcVR37m0QhS00shoCENHw_wcB NOTE: Since InfraRed radiation does not travel far, Thermic analyses is difficult. Infrared analyses assists in not only heat output; but also quantization of infrared colouration of ultraviolet light. This determines the Red/Blue ratios. [5] Positive, Neutral, and Negative Polarized Radiation Analyzer: This deice analyzes Black, White and Gray Holes. [6] Long Distance Particle Analyzer: This device is utilized or atmospheric dust analyses of stars. [7] Streak Camera similar to: http://www.hamamatsu.com/us/en/product/category/5001/5011/index.html?gclid=CjwKEAjwz4u9BRCbioK3stnBznESJADA75xbw8V2Vyxrtwg9t4SiyCv4-o52TWan1n9aUOQkG5RPGhoCFJjw_wcB http://www.hamamatsu.com/us/en/product/category/5001/5011/index.html?gclid=CjwKEAjwz4u9BRCbioK3stnBznESJADA75xbw8V2Vyxrtwg9t4SiyCv4-o52TWan1n9aUOQkG5RPGhoCFJjw_wcB http://www.iflscience.com/technology/worlds-fastest-camera-takes-44-trillion-frames-second/ These cameras would be designed for deep space photonic analyses. [8] 80 EP [ExaPixel] Panoramic Deep Space Video Camera to video record space events. Any event may be magnified to view a closeup of the object. This camera utilizes a photonic amplifier [Photomultiplier] to perform imaging similar to: http://kep.cdn.index.hu/1/0/159/1594/15947/1594737_cb64645d714897209dee3525ea5ceea2_wm.jpg http://geekologie.com/2013/08/01/zoomable-tokyo-picture.jpg http://petapixel.com/2015/10/23/astronomers-unveil-a-46-gigapixel-photo-of-the-milky-way-that-took-5-years-to-make/ The photomultiplier intensifies existing low light levels to be easily captured by video camera as though the image was within a daylight environment. The photomultiplier would be designed specifically for space video usage; and would be digital. https://en.wikipedia.org/wiki/Photomultiplier [9] NMR [Nuclear Magnetic Resonance] Spectroscope designed for remote analyses of radiation coefficients. This is similar to: https://en.wikipedia.org/wiki/Nuclear_magnetic_resonance_spectroscopy