About some named suns in The Urantia Book see link to astronomy.
The number of suns in the master universe is abundant, each with varying sizes and compositions but all with enough space to exist harmoniously. [1] The superuniverse of Orvonton is illuminated by more than ten trillion blazing suns. [2] In Nebadon, despite the vast size of the suns, there is always abundant space to accommodate them all. [3]
The suns in Nebadon, with an average diameter of one million miles, are similar to those in other universes, all sharing identical material composition and abundant space for their enormous size. [4] Some nebulas can give birth to as many as 100 million suns, varying greatly in size and resulting stellar offspring. [5]
Suns are local accelerators of energy circulation within the vast store of energy contained in each unit of matter. [6]
In suns, nuclear reactions liberate solar energy through complex chains, like hydrogen turning into helium using carbon as a catalyst, leading to varying levels of luminosity and eventual collapse or transformation into a white dwarf. [7] The ancestral forces of ultimatons have a mysterious Paradise origin, leading to the creation of an intricate network of suns and planetary systems. [8] Suns cannot degrade ultimatons, even under extreme heat and pressure. [9]
The collapse of Andromeda and Crab nebulas was caused by the emigration of “runaway particles” resulting from the exhaustion of hydrogen in large suns. [10] The suns convert matter into energy, while outer space can reverse the process, forming matter from energy. [11]
Some cooling stars can maintain high density despite being in a gaseous state due to supergases with small atoms and few electrons, which have also depleted their ultimatonic energy. [12]
The density of older stars can reach such extremes that one cubic inch would weigh six thousand pounds on Urantia, showcasing the astonishing nature of celestial bodies. [13]
Most stars are not very dense, but some have a density so immense that a cubic inch of their mass would weigh six thousand pounds on Earth, proving that the suns of space are not very dense. [14]
Cooling stars, like solar supergases, can achieve densities equal to iron despite being in a gaseous state, due to their unusual forms of matter and small atoms with few electrons. [15] These Suns exist in 1000 states and stages, from solitary evolving systems to double stars, some shining with heat and others without. [16] Some stars, like older ones, have reached the ultimatonic explosion point, where their immense density approaches electronic condensation. [17] The major cosmic eruption in Orvonton, whose light reached Urantia in A.D. 1572, was an extraordinary event visible in broad daylight. [18] Suns give out heat and light for trillions of years, showcasing the unimaginable energy stored in matter. [19] In Orvonton's superuniverse, the sun's rays comprise just four octaves of wave energy. [20]
Spectral analysis reveals only sun-surface compositions, showcasing iron lines despite it not being the primary element due to the sun's surface temperature of about 6,000 degrees. [21] The interiors of suns are vast X-ray generators that support them through incessant bombardment. [22] The stable internal temperature of 35,000,000°F of suns results in immense heat given off. [23] Subatomic matter exists extensively in the interiors of hot suns. [24]
Sources of solar energy within suns include the annihilation of atoms and electrons, transmutation of elements, accumulation of universal space energies, solar contraction, gravity action, and recaptive matter, all contributing to the incredible temperature and energy expenditure of these celestial bodies. [25]
Sun stability is fully dependent on the equilibrium between gravity and heat, ensuring tremendous pressures are counterbalanced by unimagined temperatures. [26] Antigravity influences of energy controllers and organized matter disintegration in hot stars prevent gravity from converting all energy into matter. [27]
God upholds all things by the word of his power, sending forth his Sons to create and preserve, revealing an underlying order in energy upheavals among the suns. [28]
The Universe Power Directors utilize suns as focal points for concentrating and directing energy circuits, with over two thousand brilliant suns in Satania alone, including your average blazing orb. [29]
Most suns are born by being thrown off spinning nebula billions of years ago, starting their long and eventful careers as stars in the cosmos of creation. [30] The majority of suns have obtained extensive planetary systems over 75 billion years. [31] Rejuvenation of dying suns through collision, recharging prepares burned-out suns for new cycles of universe function. [32] The emigration of runaway particles occasioned the collapse of the giant sun in Andromeda. [33] Only suns in the direct channels of universe energy can shine on forever, replenishing their energy indefinitely. [34] Shattered atoms found in cooling suns dot the vast expanse of space. [35] Suns that are too large break up or form double stars, while smaller suns contract, condense, and cool rapidly. [36] Solar supergases undergo an explosive and repellent transformation into subelectronic matter. [37] Ultimatonic leakage in larger suns causes early energy losses essential for the maintenance of electron associations and energy materialization. [38]
Energy from suns moves straight forward in particles, not waves, as it traverses space alongside other forms of organized energy. [39]
X-ray-stimulated electrons, charged by the sun's interior, embark on a space adventure through distant spheres, transforming into heat upon encountering masses of matter. [40]
The sun's rays encompass four octaves of wave energy in the superuniverse scale, with visible light as the forty-sixth octave, followed by ultraviolet, X rays, and gamma rays, while infrared and radio transmission rays are thirty octaves below. [41]
Various types of suns exist in different stages of existence, serving as accelerators of energy circulation in space. [42] Age and condition are revealed by the color of light emitted by suns. [43]
Only three planets in your solar system are currently suited for life; dead suns not suited for life make up a significant portion of your superuniverse. [44] When suns exceed thirty times the gross content of actual material, they can split into two separate bodies, forming a double star. [45]
The overlapping great binary suns in the vast hydrogen clouds are veritable cosmic chemical laboratories, but do not influence the organized life phenomena. [46] Most giant suns are young, while most dwarf stars are old, except for collisional dwarfs that may be very young and glow intensely white. [47] In the vast expanse of space, there are suns that shine without heat, illuminating their worlds with a unique and serene light. [48]
Variable suns, directly dependent on luminosity, serve as universe lighthouses for precise measurement of stellar distances up to more than one million light-years, aiding in the exploration of distant star clusters. [49] Reduction of hydrogen content in suns destined to burn out increases luminosity, culminating in the formation of white dwarfs. [50]
Younger suns experience huge respiratory heaves as they grow and mature, eventually stabilizing after reaching their peak internal temperature and releasing subatomic energies. [51] Some dark islands of space are burned-out suns, requiring ages for recharging and preparing for new cycles of universe function. [52]
Our sun, once a variable star, now shines with relative stability. [53] Sunspots, functioning as enormous magnets, alter light frequencies and hurl charged particles to produce spectacular auroral displays. [54]
The majority of stellar fluctuations result from internal processes, while periodic variations in light can also be caused by gravity interactions in double stars. [55]
Supreme Power Centers of the fourth order are not concerned with transient and local energy upheavals, such as sun spots and system electric disturbances. [56]
See also: UB 15:5; UB 15:6.8-10; UB 41:3-9.