10 trillion in Orvonton. [1] Abundant space to accommodate all. [2] Average diameter is one million miles. [3] Burned-out suns become dark islands of space. [4] Cannot degrade ultimatons. [5] Collapse of Andromeda and Crab nebulas. [6] Convert matter into energy. [7] Cooling stars have lost free ultimatonic energy. [8] Creation of planets. Density. [9] Energy from suns moves straight forward in particles, not waves. [10] Exist in 1000 states and stages. [11] Explosion point of ultimatonic condensation. [12] Explosion whose light reached Urantia in A.D. 1572. [13] Give out heat and light for trillions of years. [14] Interiors are vast X ray generators. [15] Larger nebulas can give origin to 100 million suns. [16] Local accelerators of energy circulation. [17] Majority have planets. [18] Most born by being thrown off spinning nebula. [19] Most not very dense; some immensely dense. [20] Named. Nuclear reactions in. [21] Number in master universe. [22] Origin. [23] Rays comprise 4 octaves of wave-energy. [24] Rejuvenation of dying suns through collision, recharging. [25] Runaway particles occasion collapse. [26] Suns in channels of universe energy shine on forever. [27] Shattered atoms found in cooling. [28] Size determines state. [29] Solar supergases density equal to iron. [30] Solar supergases made of subelectronic matter. [31] Sources of solar energy. [32] Spectral analysis only shows surface conditions. [33] Stability dependent on gravity-heat equilibrium. [34] Stable internal temperature of 35,000,000°F; heat given off. [35] Subatomic matter in interiors of. [36]
Consists of electrons agitated by X rays. [37] Octave of wave energy. [38]
Found in once-variable stars. [39] Function as enormous magnets. [40] Majority result from internal fluctuations. [41] Power centers not concerned with. [42]
Supported from within by X ray bombardment. [43]
Age and condition revealed by color of light. [44] Dead suns not suited for life. [45] Formation of double stars. [46] Great binary suns frequently overlap. [47] Most dwarf suns are old; most giant suns are young. [48] Suns that shine without heat. [49] Variable suns are measuring points for exploration. [50] White dwarfs. [51] Younger suns experience huge respiratory heaves. [52]
Ultimatonic leakage causes early losses. [53] Underlying order exists in energy upheavals among. [54] Universe Power Directors use suns as way stations to concentrate and direct energy circuits. [55] Very hot suns help prevent gravity from converting all energy into matter. [56]
See also: UB 15:5; UB 15:6.8-10; UB 41:3-9; UB 15:6.8-9.