How Dark Matter Creates Objects’ Inertia
With Gravity’s effect
In Jan/ 15, while revisiting Newton laws of motion, especially the First one —“An object either remains at rest or continues to move at a constant velocity, unless acted upon by an external force ” – I stumbled upon this question:
What makes objects REMAIN AT REST? And how is it done? Or more specific: What creates Inertia, the resistant force of any physical object to any changes, in its state of motion?
In searching for the answer, I traced back to inertia’s original source, step by step. And here’s what I found:
1-That no evidence, proof or sign indicating that inertial power comes from inside or is created by the objects themselves. It is definitely generated from a source outside the object.
2-That two masses built with the same material have the inertial power that varies by size. The bigger has more inertial power than the smaller.
3- That, apparently, Gravity creates an object’s weight, dictating the amount of inertial power assigned to that object.
Just observe a person trying to pick up or push a steel ball at the state of rest on the ground. While pushing or lifting that ball, he is working against the gravity that ties it down to the surface of the Earth. Actually, the objects at rest are constantly affected by local gravity that generates its resistant power. To successfully lift the ball up, he needs a force stronger than gravity’s (to overcome the ball’s inertia.)
But, the inertia isn’t always identical with the weight.
Only when you lift an object up, then you need a force stronger than gravity’s – to overcome the object’s inertia that equals its weight. Otherwise, if you push or pull it, its inertia could be more or less, depending on the size and shape of the contact area between the object and the ground. If it’s as small as a point (pointy object), its inertial power would be very weak, and with a little force, you can knock it down (actually its inertia is the same, gravity just makes your job easier.) But if it’s flat and large, the inertial power – as well as the required pushing force – will be: its weight plus friction’s resistant force.
Counting friction as part of the object’s inertia or external force acting upon it doesn’t change the dynamic of this situation.
Without Gravity’s influence
How is inertia created in the space where gravity is absent?
Stationary objects – relatively and locally – are floating in space with the help of the Dark Matter’s pressure.
Surrounded by DM that applies pressure equally on its entire body, the object cannot move to any direction and stays still unless affected upon by an external force. Similar physics’ law applies to floating objects in mid water or liquids whose pressure is equal or stronger than Earth’s gravity.
So, DM, with its pressure, produces inertia for all objects and keeps them immobile.
Dark Matter’s Pressure at Work
After discovering that DM has filled up the Universe, providing pressure that creates Gravity, Inertia, Momentum ... I was confused for a while wondering how can all creatures and even stars, planets... survive the pressure of an infinite volume of DM.
The pressure of water deep down in the sea allows habitable room for very few species. Diving more than one hundred feet deep without supporting equipment, we start having health problems that can kill. The volume of sea water compared with the gigantic DM’s volume is nothing. Yet, at every moment, anything exists in the Universe has to bear the pressure of a volume of DM of such unimaginable size! Although being the lightest, such volume would create a pressure strong enough to squeeze us to death and make stars, planets to break or explode. All my calculations lead to a cosmic destruction!
Then one characteristic of DM popped up, came to the rescue, solving the problem: It’s the special size and liquid-like state of each DM unit. It’s so small that it can run through everything. It “flows” through human body as well as the Earth, moon, stars... and almost every object in the Universe.
Therefore everything is soaked up with DM, neutralizing its pressure, or in another word, balancing the pressure inside and outside. All things are in “sponge – like” state, floating in space enduring a much more tolerant DM’s pressure.
Due to its particular small size, DM moves quite freely through everything, filing spaces inside and around objects creating inertia for stationary things and momentum for the moving ones.
So, how does DM recognize that a steel ball is heavier – stronger inertia – than an aluminum ball with the same size?
Eddie A. Maalouf gives the best answer:
“It's all about mass not size. Aluminum is mass 13, Iron (what steel is made of) is mass 26 on the periodic table. More protons, more neutrons and double the electrons in the same density... Higher density steel versus lower density aluminum. There are 30 Neutrons in Iron and 14 in Aluminum. There are 26 electrons in Iron and 13 in Aluminum... About double the density.”
By penetrating an object filling all opening spaces large and small inside it, DM “knows” precisely what we have known about that object’ density, and applies its pressure on every particle it found.
The “box and balls experiment” is still useful in providing a simplified picture of the density’s important role.
Every particle then would have its own inertia. Altogether, they make up the object and – with the help of DM – create the object’s total inertial power. The denser particles in one object the stronger its inertia. That’s why a steel ball (mass 26) has stronger inertia than the aluminum one (mass 13) with the same size.
So, applying its pressure on every particle that makes up mass, object… DM creates inertia hence the “Universal- base-weight” for everything.
How Does a Scale Read Weight?
In order to read an object’s weight, scales need the assistance of the… Earth.
We human beings can guess everything’s weight by seeing, and even hearing.
Eyes recognize the material of an object is made of to estimate its weight. Ears can guess the object’s mass based on the sound of impact. But besides the touch that can be considered an instinct, seeing and hearing need experience, memory and intelligence. And with intelligence, scientists learn to understand why lead is heavier than wood, iron is weightier than aluminum etc… Then, thanks to Mendeleyev, we have the Periodic Table. We design sophisticated scales.
But without tools, touching and sensing are the best method. Picking up an iron ball and a same size aluminum ball, we immediately know the former is heavier than the latter. To estimate an object’s inertia the common way is to push or pull it feeling the resistant force.
That human’s primitive method of finding things’ inertia or weight is the main principle guiding the scales’ mechanism.
Scale measures an object’s weight by constantly pushing against its inertia, translating the resistant power it detects into number.
The apparently immobile scale is actually moving all the time by a pushing force coming from right beneath it: Earth – because the Earth perpetually moves in space.
At this point, one thing is clear: Inertia and Weight are totally different.
Object’s inertia doesn’t change, but its weight is always affected by local gravity – or the mass and its velocity that provide the pushing force – and would vary from planet to planet.
And inside a space shuttle orbiting Earth, all floating things have no weights. Only the object’s invariable inertia still exists.
DL (3/17)
https://www.einsteinerrs.com/how-dark-matter-creates-objectsrsquo-inertia.html