ban kinh that chat cua lo den: "r = 2gm/c^2 = t×c^2"
Hang so hap dan (ky hieu la G) la mot hang so vat ly co ban dung de tinh toan luc hap dan giua hai vat the co khoi luong. No dong vai tro la he so ty le trong Dinh luat van vat hap dan cua Isaac Newton.
G = (6.6743 ± 0.00015) × 10−11 m3 kg−1 s−2.
Ngay nay nguoi ta xem hang so hap dan khong nhung lien quan den khoi luong cua vat the ma con lien quan den (tat ca hinh anh, thong tin va du lieu bi nen lai hay hay mo rong ra goi la T) do chinh la mot truong anh sang vang kim lien tuc va on dinh.
Ban kinh that chat cua Lo Den: "r = 2GM/C^2 (1)
T×V =T×4/3 π×r^3 suy ra r = can bac ba of 3T×V/4π (2).
Tu (1) va (2) suy ra 2GM/C^2 = √can bac ba of 3T×V/4π.
(Lo Den cung tuong tu giong nhu la cach ban chon mat troi lon hay mat troi nho (trai dat, mat trang)...etc).
Trong do:
G la hang so hap dan, lien quan den anh sang vang kim va la mot cai truong anh sang vo tan.
M la khoi luong cua lo den.
T la Dung luong la noi chua dung tat ca hinh anh, thong tin va du lieu bi nen lai hay mo rong ra.
V = 4/3 π×r^3 la the tich hinh cau.
C la toc do anh sang, voi c = 3×10^8 m/s duoc tinh bang khoanh khac tuong doi cua Cay Dai Thu va Cay Thu Muc tren bau troi dem Hoan Vu.
Mot hat co hoc luong tu tuong tu nhu mot Ngoi Sao sang tren bau troi dem Hoan Vu, nhung ban chat lai trai nguoc (bi nen lai hay mo rong ra), hat nong va hat lanh. Ca hai dieu mang hang so hap dan rieng.
Translate:
The gravitational constant (denoted by G) is a fundamental physical constant used to calculate the gravitational force between two objects of mass. It acts as the proportionality constant in Isaac Newton's Law of Universal Gravitation.
G = (6.6743 ± 0.00015) × 10⁻¹¹ m³ kg⁻¹ s⁻².
Today, the gravitational constant is considered not only related to the mass of an object but also to (all images, information, and data compressed or expanded, called T), which is a continuous and stable golden light field.
Black Hole Constriction Radius: "r = 2GM/C^2 (1)
T×V =T×4/3 π×r^3 Therefore, r = cube root of 3T×V/4π (2).
From (1) and (2), we get 2GM/C^2 = √cube root of 3T×V/4π.
(Black holes are similar to how you choose a large or small sun (earth, moon)...etc).)
Where:
G is the gravitational constant, related to golden light and is an infinite field of light.
M is the mass of the black hole.
T is the capacity is where all images, information, and data are contained, compressed or expanded.
V = 4/3 π×r^3 is the volume of the sphere.
C is the speed of light, with c = 3×10^8 m/s It is measured in relative moments of the Great Tree and the Directory Tree in the Universal night sky.
A quantum mechanical particle is similar to a bright star in the Universal night sky, but its nature is the opposite (compressed or expanded), hot and cold. Both possess their own gravitational constants.