A non-serious study of time and relativity, or something?

Warning!

This blog is just an interest and nothing more. It’s just fun! However, this blog does prove a fun time is not pornography! Think of it as just notes.

Domains.

I have several domain names for this website including, https://squareoftime.com and https://magnitudeoftime.com. Square of time is probably the most geeky, but it is not much fun? Also, for when I am feeling really boring and apathetic I also have https://mathandtime.com, https://mathsandtime.com and https://mathematicsandtime.com and https://mathoftime.com, https://mathsoftime.com and https://mathematicsoftime.com.

Different forms of time.

Unfortunately, I am a certified schizophrenic, however, that does not mean you have to be scared of me or shun me, it just means I am clown and I cannot work. However, I do not waste my time. I have read just about every day since the 1st of August 2016 (mostly history), therefore I am kind of a self-taught QBE philosopher, in that I have independently read well over 100 books and I have written a 81k word essay on forgiveness. I have also conducted this very unorthodox study or investigation of T² or what I have called fun time. However, please note I am never trying to prove anything with T² or fun time, other than the fact that it proves that I work with and understand a little time and relativity? T² just an interest! To reiterate, T² is just fun! My main objective is my other blog, hypothetical time travel (HTT), equivalent forgiveness (EF) and old primitive innocence (OPI) or poetically crime travel and time for forgiveness. Hence, one thing I am doing is comparing mathematical time with philosophical time. The first thing to note is that they are completely different forms of time. The first is mathematical, scientific and precise while the latter is philosophical, literary and imprecise. 

Therefore, I am working on or developing four things hypothetical time travel (HTT), art of forgiveness, fun time and I am learning to DJ. The first three works are related to time, however, the first is philosophical time, the second is art portraying crime travel, the third is mathematical time and the fourth is self explanatory. As mentioned one goal is the comparison of two different forms of time and relativity? The comparison is between fun time and philosophical time. What I mean by philosophical time is that hypothetical time travel (HTT), equivalent forgiveness (EF) and old primitive innocence (OPI) are just literature and simply use common sense evolution and anthropology with the terms time, equivalent, relative and relatively in order to absolve criminals of their crimes? As T² proves absolutely nothing scientifically that is not already known, therefore, it is just a non-serious study of time and relativity, or something? I have learned that other than ‘being ahead’ there is not much in the mathematical (fun) time whereas there is ethics, morality, innocence and forgiveness in philosophical time. When I first studied T², I lost all faith in the spiritual and divine and after toing and froing I now definitely believe this to be right. When I first started studying fun time I stated rational things like:

“Time is not spiritual or divine.”

“Do not seek spiritual enlightenment, seek time intellectually.”

”Never listen to electronic beats, all you need is a ticking clock.”

I believe all except the last statement. I definitely do not now believe the last, as DJing and music are beautiful and hip in a way that science and academia can never be, which are dry and ugly in comparison. However, concerning the other statements, what is spiritual enlightenment or spiritual energy anyway? Again spiritual enlightenment and spiritual energy are abstruse, recondite, esoteric or even acataleptic (not able to be understood), whereas Albert Einstein’s light and energy are real, technical, rational, comprehensible and scientific, hence the C² and E in E = MC². There is no other form of light or energy. Therefore, do not seek spiritual enlightenment, seek time intellectually. Also, Albert Einstein’s secular forgiveness is real, technical, rational, comprehensible and scientific.

Fun time formula:

A = BT²

B = A/T²

T² = A/B

Where:

A = small magnitude time length

B = large magnitude time length

T² = small time magnitude square

Notice how A = BT² formula coincidentally matches E = MC² formula. All of this obviously belongs to Albert Einstein!

What is fun time?

Fun time is CAPITAL T².

Not small t!

Small t is a length or a dimension.

CAPITAL T or T² is a magnitude of time, not a dimension.

Although I have no other experience, T or T² seems to me the best way to understand the nature of time? It is certainly the simplest?

The point of orders of magnitude.

Why does fun time exist? Surely it would not exist without orders of magnitude? To me there is no better way to use orders of magnitude of time than with fun time. It gives them an excellent use. What else is the point of orders of magnitude for time?

What is the point of fun time?

Fun time could be relativity (or something) for laypeople like me? How else can laypeople like me practice, perform or exercise any form of relativity? Special and general relativity are far too advanced. I am clueless! I mean I have never heard of any simple exercises with E = MC² that laypeople like me can practice, however, there are literally limitless exercises of A = BT². You can work with any time you like such as Mayan time or Martian time. Fun time is also “ahead” because the mathematics and formulas are very quick and they are always one step “ahead” of you, therefore, you have to think one step “ahead” in order to workout the questions.

Finally, even primitives such as prehistoric man understood small t which is normal counting as in basic numbers like 3 apples or 3 apples times 10 equals 30 apples and 3 apples divided by 10 equals 0.3 of an apple. However, similar to the speed of light, counting time behaves differently, with CAPITAL T², 3, 30 and 0.3 are exactly the same. Can 3 equal anything else for that matter?

Example.

A very simple example:

t = 3 seconds (s)

T^1 = 10 ds

T^2 = (3 × 10) / (3 / 10) = 10² = 100 ds²

A = 3 × 10 = 30 deciseconds (ds)

B = 3 / 10 = 0.3 decaseconds (das)

Note how 30, 3 and 0.3 (A, t and B) are all the same length of time, just different magnitudes? It is as if real time or relative time is never actually divided? To me time could be whole, one, eternal, relative and just a magnitude? Obviously it’s known that time is a magnitude, but I have never heard it said before that “time is not dimension, it is only a magnitude”, I have always been told that time is the fourth dimension or a kind of dimension or kind of a length, however, this investigation kind of showed me that real time is never a length or a dimension, it is only a magnitude? For such a simple formula, I am surprised that it is not very common knowledge indeed? Why the hell didn’t I know? For example, 3 s (seconds) is also obviously 30 ds (deciseconds) and 0.3 das (decaseconds), however, the difference between 30 ds and 0.3 das is a square of the order magnitude of time as in 100 ds² and this is T². You could also say that 3 m (metres) is also obviously 30 dm (decimetres) and 0.3 dam (decametres), and, the difference between 30 dm and 0.3 dam is a square of the order magnitude of length as in 100 dm² and this is L². However, when you multiply 3 apples by 10 you get 30 apples, not 3 apples divided into 30 smaller pieces. And when you divide 3 apples by 10 you get 0.3 of a single apple, not 0.3 of a giant apple. In physics time is called a scalar quantity as opposed to a vector quantity, but it gets advanced quickly, where as to understand time properly, even a child can do it with T²?

Equipment.

You need a calculator that converts decimals to fractions to practice fun time. I recommend the Natural Scientific Calculator.

Natural Scientific Calculator by Stultus Studios Pty Ltd.

Occasionally a very powerful calculator is needed to calculate long numbers. PCalc is recommended.

PCalc by TLA Systems Ltd.

Requirements.

There are just a few very simple things you need to know to practice fun time. You can learn them all in seconds.

1. Orders of magnitude (time).

As in attosecond (as) and exasecond (Es) etc. The above link is used for quick reference.

2. Scientific notation.

As in 2.3855886103 × 10^13

For ease of writing and although unorthodox:

X = 2.3855886103

3. Understood k.

The unit of time is always the number plus the decimal. We will take minutes (m) for an example:

m = 65/4 = 16.25

k is always the whole number part of the unit of time in question, (as opposed to the whole number plus the decimal or just the decimal) and although unorthodox, k is an ‘understood k’ in that it is the k of the unit of time being subtracted k or the k of the decimal being added k. Taking the above example using minutes (m):

k = 16

The division is always the decimal part of the unit of time for example again using the minutes (m) example above:

s/60 = 1/4 or 0.25

Therefore,

m = k + s/60 = 16 + 0.25 = 65/4 = 16.25

A typical example:

s/60 = 1/4

s/60 is the decimal of minutes.

k = m – s/60 = 16

This means that the whole minutes (k) equals minutes (m) minus the decimal of minutes (s/60). Note k is usually chosen by you at will or at random.

m = k + s/60 = 65/4 = 16.25

This mean that minutes (m) equals whole minutes (k) plus the decimal of minutes (s/60).

Another example with days (d) and hours (h), let’s say:

d = 82319/3456

Hence,

h/24 = d – k = 2831/3456

This means that the decimal of days (h/24) equals days (d) minus whole days (k). Note how d – k is another way to say h/24.

h = (d – k) × 24 = 2831/144

This means that hours (h) equals days (d) minus whole days (k) multiplied by 24. As noted above d – k is another way to say h/24, therefore (d – k) times 24 equals h. Note how the unit of time (h) is encoded in the decimal (h/24) of the previous unit of time (d).

k = h – m/60 = 19

This means that whole hours (k) equals hours (h) minus the decimal of hours (m/60).

Ok?

4. Basics rules of exponents.

As in when you multiply two exponents you add the exponents.

X × 10^13 × 10^6 = X × 10^19

And when you divide two exponents you subtract the exponents.

X × 10^6 / 10^13 = X × 10^-7

That is about it!

Question.

A simple example of fun time:

(ORDERS OF MAGNITUDE AND EXPONENTS)

B = A/T^2 = X × 10^4 Ms

Note: the only clue in the above problem is the unit of time, as in megaseconds (Ms).

Therefore, what are the magnitudes of T^1, T^-1, T^2 and T^-2?

What are the powers n of X × 10^n for A and t?

Answer:

T^1 = √(A/B) = 10^6 μs

T^-1 = √(B/A) = 10^-6 Ms

T^2 = A/B = 10^12 μs²

T^-2 = B/A = 10^-12 Ms²

A = BT^2 = X × 10^4 × 10^12 = X × 10^16 μs

t = A/T^1 = X × 10^16 / 10^6 = X × 10^10 s

It is a square of time! (isn’t it)?

Note: fun time is all about the exponents.

Click here for more complex questions.

I hope it is not a total waste of …?