SLíдτ2: (TRC3:SS)...P2...Balance & Moving

The Road

Chapter 3 : Solar Separating

Page 2 : Balance & Moving

We can divide the type of balance's moving into 2 as follows

1. Stationary

The man as shown in Pic 1.1 does not move. He is holding the wood's stick that is in a state of balance and does not swing

2. Move & Do Not Stop (Dynamic)

But if the man begins to walk on the rope from position A to B (Pic 1.2) , a fluctuation of the stick must be used to maintain balance.
This includes twisting and swinging the body such as arms, legs, knees, elbows etc.

Sun's Balance & Moving

From Pic 2 Assume That

- Planets A, B has the same volume and size.

- Sun is centered on the beam

And the 2 Type of Sun's Balance & Moving are as follow

1. The Immobile Equilibrium is

Sun and A, B are fixed, the beam is parallel to the horizontal, and the two planets are stationary on the beam.

2. The Dynamic Equilibrium is

The beam and the sun are constantly shifting to maintain balance. The beam is not parallel to the horizontal....Moving up and down all the time and never stop

Example :
Suppose there is a capable hand that can picking up A and B, if A is the 1st picked.....Side of the A beam is raised, and B will drop (Pic 3.1).

At the same time, immediately place A down and pick B up, beam side B will be raised and A was fall (Pic 3.2).
If doing alternately and do not stop.....Beam will rise and fall, but will not fall on the ground.

What Is The Hand?

If there is no hand to pick up......What does our solar system use to pick up all planets in and out to maintain balance?

From Pic 4

Suppose That

- There are two suns running on a beam (like a belt machine)

- This beam has a central axis and can rotate around themselves.

The Description of Pic 4 As follows
1. When the right beam is raised, Sun1 rotates to the left (Step1, 2)

2. When Sun1 reaches the end of the beam (Step 3) The extra weight causes the beam to spinning, Sun2 begin to move and B is flipped up

3. The upper beam picks up and pushes B down, while the lower beam pushes A up (Step 4, 5)
- The beam and A, B are alternately positioned (Step 5)

4. When Sun2 reaches the end of the beam.The extra weight will cause the beam to spin and the inertia will pushes Sun1 upwards (Step 6)

5. A is bounced up (Step 7), Sun1 starts moving. The upper beam will receive A (Step 8)

6. The upper beam pushes A down, while the lower beam pushes B up (Step 8, 9, 10)

7. The inertia try to pushes Sun2 up on the top (Step 10)

8. B is bounced up (Step 11), Sun2 starts moving. The upper beam will receive B (Step 12)
- Sun2 is reaching to the end of the beam.

Briefly
1 If Sun's moving with a balance, It must has....
1.1 Beam

Beam's distance is a half of an ellipse's formed (one side). It can be measured from the collision's position (sun1) and perfect road's (sun2) in Pic 5.

1.2 Body or Center

The Sun's body will vibrate itself back and forth to maintain balance. (Pic 6)

2. Perfect Sun's Backing...It must consists of 2 movements as follow
2.1 Collisions and get a side of the ellipse in Pic 7.1

A perfect circle of an orbit after Sun's backing is an impossible thing. (Pic 7.2)

2.2 Go straight to the ellipse but does not collide and creates a perfect road

Example :

Look at "Sun2" in Pic 8 (It is a copy from Pic 4) It is shown how to explain when use a beam to creat a perfect road as follow

Step 3 = Start

Step 4, 5 = Processing

and Step 6 = Finish

3. Sun's Backing Effect....It is only bounce planet up to the top or go down only (Pic 9.1, 9.3 )

It can not go straight on (Pic 9.2, 9.4)

4. Sun's Backing is a hand in our solar system that used to pick up the planets alternately and keep its balance (Pic 10)

10/26/2020

(TRC3:SS)...P2...Balance & Moving