plot summary:
Dr. Stephen Hawking's "The Universe in the Nutshell" is mainly about the Big Bang Theory,
Is the beginning of our universe really the Big Bang?
Drama Start:
Star Calendar July 11, 2016 17:02:46, the Milky Way Galaxy Earles the Chinese Empire Jiangnan Line province.
[Engineer Ah Wei] is working with [machine Xiao Wei] to study [a brief history of the Big Bang Theory of Time].
Let's take a look at some things about the Earth:
The following basic is from the "Nutshell of the Universe":
In fact, Ah Wei does not know that the Big Bang Theory is not reliable, but this theory a lot of things are not clear, this is undoubted.
Ah Wei does not necessarily want it to make everything clear, because perhaps describing the universe is the same as describing the human body,
Whether you are drawing or writing, or even taking photos, recording images, you can really describe the human body all clear?
Analysis of the appearance and internal organs, as well as tendons blood fluid, and then there is thought, how can all be resolved clearly?
And the human body is still changing with the time axis, a point in time to figure out, the next moment has changed.
So in fact there may not be a clear need at all. As long as they know that there is life, there is death, the universe is alive, there is death,
Outside the universe, there is a universe beyond the human scale, there is a solar system larger than the size of the universe, there is a higher level of the universe,
It's all right.
The macroscopic and microscopic scales seem to be unified, as shown in.
#洛仑兹变换def ltransfer (velocity, choice, pos = [0, 0, 0, 0]): #[x, y, Z, t], [x ', y ', z ', T '] # lightvelocity = 3e8; c = lightvelocity; v = velocity; beta = v/c; Gamma = 1/(1-beta**2) **0.5; if (choice = = 1): #从 [x, Y, Z, T] and [x ', y ', z ', T '] x, y, Z, t = pos[0], pos[1], pos[2], pos[3]; X_ = gamma* (x-v*t); Y_ = y; Z_ = Z; T_ = gamma* (t-v*x/c**2); result = [X_, Y_, Z_, T_]; else: #从 [x, Y, Z, t] <-[x ', y ', z ', T '] x_, Y_, z_, t_ = Pos[0], pos[1], pos[2], pos[3]; x = gamma* (x_ + v*t_); y = y_; z = z_; t = gamma* (t_ + v*x_/c**2); result = [x, y, Z, T]; Print (' {0} after Lorentz transformation is {1} '. Format (pos, result)); #时间膨胀效应def Timeexpand (T, v): c = 3e8; Gamma = 1/(n (v/c) **2) **0.5; T_ = gamma * t; Print (' Time {0:.2e} ' expands to time {2:.9e} ' at speed {1:.2e}. Format (t, V, T_)), #光年转米def Ly2meter (ly): print (' {0:.2e} lightyears is {1:.2e} meters '). Format (ly, 9.46e15*ly)); #黑洞直径上限def blAckholedupper (Mass): ' G = 6.67E-11; c = 3E8; R = g*mass/c**2; Rou = mass/(4/3*3.142*r**3); "' Rou = 1.432E19; R = ((Mass/rou)/3.142*0.75) * * (1/3); Print (' Mass {0:.3e} ' star, the maximum radius of a black hole can be {1:.3e}, at which time the density is {2:.3e} '. Format (Mass, r, Rou));d EF tmp (): #LTransfer (3e7, 1, [0, 0, 0, 100]); #timeExpand (1e9, 3e4); #ly2Meter (2.6E4); Blackholedupper (2E40);
The end of this section, to know how to funeral, please see tell.
[history from the beginning] No. 299 quarter time history is the Big Bang theory reliable?