The reason we exist
and why ENERGY is SWEET and why people who lack this
knowledge have trouble thinking.
by Henryk Szubinski
In this theory i will try to show the main thing that we humans mostly use in our bodies , what is the common work we do and what is the resulting aggregate of our work on each other in various social scales of the common product from the body that increases our input and wants us to do more.
I will start with Free energy as the ideal of the social scale and then define some anatomical functions of the brain and the way it makes energy and produces the large amounts of relaxation that we humans need to survive.
In economics, free entry is a condition in which firms can freely enter the market for an economic good by establishing production and beginning to sell the product. In most markets this condition is present only in the long run.
Free entry is part of the perfect competition assumption that there are an unlimited number of buyers and sellers in a market. In conditions in which there is not a natural monopoly caused by unlimited economies of scale, free entry prevents any existing firm from maintaining a monopoly, which would restrict output and charge a higher price than a multi-firm market would.
Free entry is usually accompanied by free exit, under which condition firms that are incurring losses (such as would happen if there are too many firms producing the product so that each is producing too little to be at its minimum efficient scale) can readily leave the market. However, exiting a market may involve abandonment costs.
Now on to the human body as the free entry we have as human beings belonging to the larger group.
COMMON BODY CENTERED ACTIVITY of ENERGY and the results
chemical scales of the ATP-PC breaks down into and LACTIC ACID molecuyles that are
remaining that bind back by the AEROBIC system bonding with the ATP-PC as the cycle.
So that the CYCLE defines the social involvance of the production of the 3 times that
each
cycle / 3 defines the
ATP-PC 1/3 =LACTIC ACID 2/3 + 1AEROBIC + ATP-PC
1/ 2/3 LACTIC ACID = AEROBIC
1/0,6666 lactic acid = Aerobic
1,49999 Lactic acid = Aerobic
The lactic ratio as 1:2 or 1:3 as the
lactic acid pulse expansion contraction Aerobic related to the 1,5:3 ratio
muscle contractions by the KCl and its expansion by NaCl
So that this defines the K/Na or as Na/K
as the expansion Na+1 / contraction K+2=3 synapse wave functions unifying cellularity.
As such then,
Na+
/K+
-ATPase (sodium-potassium adenosine triphosphatase, also known as the Na+
/K+
pump or sodium–potassium pump) is an enzyme (EC 3.6.3.9) (an electrogenic transmembrane ATPase) found in the plasma membrane of all animal cells. The Na+
/K+
-ATPase enzyme is a solute pump that pumps sodium out of cells while pumping potassium into cells, both against their concentration gradients. This pumping is active (i.e. it uses energy from ATP) and is important for cell physiology. An example application is nerve conduction.
It has antiporter-like activity, but since it moves both molecules against their concentration gradients it is not a true antiporter, which would require one solute to move with its gradient, not against it.
Its simple function is to pump 3 sodium ions out for every 2 potassium ions taken in and since they both have equal ionic charges, this creates a electrochemical gradient between a cell and its exterior. The protein can also let the reverse operation happen, thus harnessing the energy it has stored in the form of an electric field potential. The reverse process is, unlike the forward, spontaneous.
Lets look at the components of the Na/K as the energy that creates the muscular contraction and expansion by the ATP-PC =Lactic acid +Aerobic
as the production of immunity of the body not to use the resulting KCl
but opts for the immunity by the other salt variable with higher body conductivity as the
NaK.
to better understand I'm quoting Wikipedia 2017 sep 26.
the:
ATP-PC System
The body needs a continuous supply of ATP for energy -- whether the energy is needed for lifting weights, walking, thinking or even texting. It’s also the unit of energy that fuels metabolism, or the biochemical reactions that support and maintain life. For short and intense movement lasting less than 10 seconds, the body mainly uses the ATP-PC, or creatine phosphate system. This system is anaerobic, which means it does not use oxygen. The ATP-PC system utilizes the relatively small amount of ATP already stored in the muscle for this immediate energy source. When the body’s supply of ATP is depleted, which occurs in a matter of seconds, additional ATP is formed from the breakdown of phosphocreatine (PC) -- an energy compound found in muscle.
Lactic Acid System
The lactic acid system, also called the anaerobic glycolysis system, produces energy from muscle glycogen -- the storage form of glucose. Glycolysis, or the breakdown of glycogen into glucose, can occur in the presence or absence of oxygen. When inadequate oxygen is available, the series of reactions that transforms glucose into ATP causes lactic acid to be produced -- in efforts to make more ATP. The lactic acid system fuels relatively short periods -- a few minutes -- of high-intensity muscle activity, but the accumulation of lactic acid can cause fatigue and a burning sensation in the muscles.
Aerobic System
The most complex energy system is the aerobic or oxygen energy system, which provides most of the body's ATP. This system produces ATP as energy is released from the breakdown of nutrients such as glucose and fatty acids. In the presence of oxygen, ATP can be formed through glycolysis. This system also involves the Krebs or tricarboxylic acid cycle -- a series of chemical reactions that generate energy in the mitochondria -- the power plant inside the body cells. The complexity of this system, along with the fact that it relies heavily on the circulatory system to supply oxygen, makes it slower to act compared to the ATP-PC or lactic acid systems. The aerobic system supplies energy for body movement lasting more than just a few minutes, such as long periods of work or endurance activities. This system is also the pathway that provides ATP to fuel most of the body’s energy needs not related to physical activity, such as building and repairing body tissues, digesting food, controlling body temperature and growing hair.
back to work:
Thus defined the resulting sum = 3 defines the body as using the salt Na/K
as the ability of it's wave function of water displacement as being either blocked or displaced depending on the amounts of the Na x / K y= 3 wave function . There must be a third salt.
There are 4 more salts
1)Pink Himmalayan salt
2) sea salt
3) Kosher salt
4)refined salt
As such they contain various NaCl variables and it may be that the NaCl defines the
cellular barrier to the body as being from the equation
Na/K - KCl = NaCl
So that the K or potassium is removed by the division of K and it's multiplication by K
as such the result = K/K where the ionic state would ideally be K3+ / K2+=K5+
or as
K+1 / K+2 =K+3
So that the K=6+ as having 6 ions that are related to the division with 2 ions = 3 ions.
This gives the comparison with the other scale of salt as the Na/K with it's reference to Na 2+ and K 3+ some x =1
In this case the x is unknown. So to know the x value the :
K as having 6 ions as compared to the Na+2 /K +3+6=1
Na2+ / K9+ =1
That the Na/ K system would have an opposition to it's salt as the other side of the taste scale as being = Sweet
may indicate that there are sugars in the mix as:
Glucogen K / Glucose Na
as the mix of the salts and the sugars of the body that
define the Piruvic acid as when mixed meaning that the Piruvic acid decreases in the mix making it neutral. So that the
Piruvic acid and the Lactic acid cancel each other out by way of the Na/K layer of body energy.
The fact remaisn then that the sweet taste remains in place of the salty ,and this may indicate why we need proteins as
the most common molecules of the body that we eat to make energy and we use this energy to build our bodies
and with our healthy bodies we interact better,Because energy must be SWEET i reasoned.
Here are the previous know facts about the way our bodies produce energy.
from
http://slideplayer.com
2017 sep 26
and why ENERGY is SWEET and why people who lack this
knowledge have trouble thinking.
by Henryk Szubinski
In this theory i will try to show the main thing that we humans mostly use in our bodies , what is the common work we do and what is the resulting aggregate of our work on each other in various social scales of the common product from the body that increases our input and wants us to do more.
I will start with Free energy as the ideal of the social scale and then define some anatomical functions of the brain and the way it makes energy and produces the large amounts of relaxation that we humans need to survive.
In economics, free entry is a condition in which firms can freely enter the market for an economic good by establishing production and beginning to sell the product. In most markets this condition is present only in the long run.
Free entry is part of the perfect competition assumption that there are an unlimited number of buyers and sellers in a market. In conditions in which there is not a natural monopoly caused by unlimited economies of scale, free entry prevents any existing firm from maintaining a monopoly, which would restrict output and charge a higher price than a multi-firm market would.
Free entry is usually accompanied by free exit, under which condition firms that are incurring losses (such as would happen if there are too many firms producing the product so that each is producing too little to be at its minimum efficient scale) can readily leave the market. However, exiting a market may involve abandonment costs.
Now on to the human body as the free entry we have as human beings belonging to the larger group.
COMMON BODY CENTERED ACTIVITY of ENERGY and the results
chemical scales of the ATP-PC breaks down into and LACTIC ACID molecuyles that are
remaining that bind back by the AEROBIC system bonding with the ATP-PC as the cycle.
So that the CYCLE defines the social involvance of the production of the 3 times that
each
cycle / 3 defines the
ATP-PC 1/3 =LACTIC ACID 2/3 + 1AEROBIC + ATP-PC
1/ 2/3 LACTIC ACID = AEROBIC
1/0,6666 lactic acid = Aerobic
1,49999 Lactic acid = Aerobic
The lactic ratio as 1:2 or 1:3 as the
lactic acid pulse expansion contraction Aerobic related to the 1,5:3 ratio
muscle contractions by the KCl and its expansion by NaCl
So that this defines the K/Na or as Na/K
as the expansion Na+1 / contraction K+2=3 synapse wave functions unifying cellularity.
As such then,
Na+
/K+
-ATPase (sodium-potassium adenosine triphosphatase, also known as the Na+
/K+
pump or sodium–potassium pump) is an enzyme (EC 3.6.3.9) (an electrogenic transmembrane ATPase) found in the plasma membrane of all animal cells. The Na+
/K+
-ATPase enzyme is a solute pump that pumps sodium out of cells while pumping potassium into cells, both against their concentration gradients. This pumping is active (i.e. it uses energy from ATP) and is important for cell physiology. An example application is nerve conduction.
It has antiporter-like activity, but since it moves both molecules against their concentration gradients it is not a true antiporter, which would require one solute to move with its gradient, not against it.
Its simple function is to pump 3 sodium ions out for every 2 potassium ions taken in and since they both have equal ionic charges, this creates a electrochemical gradient between a cell and its exterior. The protein can also let the reverse operation happen, thus harnessing the energy it has stored in the form of an electric field potential. The reverse process is, unlike the forward, spontaneous.
Lets look at the components of the Na/K as the energy that creates the muscular contraction and expansion by the ATP-PC =Lactic acid +Aerobic
as the production of immunity of the body not to use the resulting KCl
but opts for the immunity by the other salt variable with higher body conductivity as the
NaK.
to better understand I'm quoting Wikipedia 2017 sep 26.
the:
ATP-PC System
The body needs a continuous supply of ATP for energy -- whether the energy is needed for lifting weights, walking, thinking or even texting. It’s also the unit of energy that fuels metabolism, or the biochemical reactions that support and maintain life. For short and intense movement lasting less than 10 seconds, the body mainly uses the ATP-PC, or creatine phosphate system. This system is anaerobic, which means it does not use oxygen. The ATP-PC system utilizes the relatively small amount of ATP already stored in the muscle for this immediate energy source. When the body’s supply of ATP is depleted, which occurs in a matter of seconds, additional ATP is formed from the breakdown of phosphocreatine (PC) -- an energy compound found in muscle.
Lactic Acid System
The lactic acid system, also called the anaerobic glycolysis system, produces energy from muscle glycogen -- the storage form of glucose. Glycolysis, or the breakdown of glycogen into glucose, can occur in the presence or absence of oxygen. When inadequate oxygen is available, the series of reactions that transforms glucose into ATP causes lactic acid to be produced -- in efforts to make more ATP. The lactic acid system fuels relatively short periods -- a few minutes -- of high-intensity muscle activity, but the accumulation of lactic acid can cause fatigue and a burning sensation in the muscles.
Aerobic System
The most complex energy system is the aerobic or oxygen energy system, which provides most of the body's ATP. This system produces ATP as energy is released from the breakdown of nutrients such as glucose and fatty acids. In the presence of oxygen, ATP can be formed through glycolysis. This system also involves the Krebs or tricarboxylic acid cycle -- a series of chemical reactions that generate energy in the mitochondria -- the power plant inside the body cells. The complexity of this system, along with the fact that it relies heavily on the circulatory system to supply oxygen, makes it slower to act compared to the ATP-PC or lactic acid systems. The aerobic system supplies energy for body movement lasting more than just a few minutes, such as long periods of work or endurance activities. This system is also the pathway that provides ATP to fuel most of the body’s energy needs not related to physical activity, such as building and repairing body tissues, digesting food, controlling body temperature and growing hair.
back to work:
Thus defined the resulting sum = 3 defines the body as using the salt Na/K
as the ability of it's wave function of water displacement as being either blocked or displaced depending on the amounts of the Na x / K y= 3 wave function . There must be a third salt.
There are 4 more salts
1)Pink Himmalayan salt
2) sea salt
3) Kosher salt
4)refined salt
As such they contain various NaCl variables and it may be that the NaCl defines the
cellular barrier to the body as being from the equation
Na/K - KCl = NaCl
So that the K or potassium is removed by the division of K and it's multiplication by K
as such the result = K/K where the ionic state would ideally be K3+ / K2+=K5+
or as
K+1 / K+2 =K+3
So that the K=6+ as having 6 ions that are related to the division with 2 ions = 3 ions.
This gives the comparison with the other scale of salt as the Na/K with it's reference to Na 2+ and K 3+ some x =1
In this case the x is unknown. So to know the x value the :
K as having 6 ions as compared to the Na+2 /K +3+6=1
Na2+ / K9+ =1
That the Na/ K system would have an opposition to it's salt as the other side of the taste scale as being = Sweet
may indicate that there are sugars in the mix as:
Glucogen K / Glucose Na
as the mix of the salts and the sugars of the body that
define the Piruvic acid as when mixed meaning that the Piruvic acid decreases in the mix making it neutral. So that the
Piruvic acid and the Lactic acid cancel each other out by way of the Na/K layer of body energy.
The fact remaisn then that the sweet taste remains in place of the salty ,and this may indicate why we need proteins as
the most common molecules of the body that we eat to make energy and we use this energy to build our bodies
and with our healthy bodies we interact better,Because energy must be SWEET i reasoned.
Here are the previous know facts about the way our bodies produce energy.
from
http://slideplayer.com
2017 sep 26
Synonyms for sweet:and the meaning of being alive.
noun
and the gods of sweetness:
from wikipedia
2017 sep 26
In Greek mythology, Hedylogos or Hedylogus (Ancient Greek: Ἡδυλογος) was the god of sweet-talk and flattery and one of the winged love gods called the Erotes. He is not mentioned in any existing literature, but he is depicted on ancient Greek vase paintings. A surviving example on a red-figure pyxis from the late 5th century BC shows Hedylogos alongside his brother Pothos drawing the chariot of Aphrodite.
Ambroisia as the sweetness of the drink of eternal life:probably based on the
link of Hedylogos and Ambroisia
as
Hedylogosambrosia
from the depictions of ancient Greek vase paintings of it.
In the ancient Greek myths, ambrosia (/æmˈbroʊʒə/, Greek: ἀμβροσία, "immortality") is sometimes the food or drink of the Greek gods, often depicted as conferring longevity or immortality upon whoever consumed it.[1] It was brought to the gods in Olympus by doves.[2]
Ambrosia is sometimes depicted in ancient art as distributed by a nymph labeled with that name.[3] In the myth of Lycurgus, an opponent to the wine god Dionysus, violence committed against Ambrosia turns her into a grapevine.
Hedylogos
- 1.
having the pleasant taste characteristic of sugar or honey; not salt, sour, or bitter.
"a cup of hot sweet tea"
synonymer:sugary, sweetened, saccharine; Mer- (of air, water, or food) fresh, pure, and untainted.
"lungfuls of the clean, sweet air"
synonymer:pure, wholesome, fresh, uncontaminated, clean, clear, not sour, not rotten
"she breathed in the sweet March air" - smelling pleasant like flowers or perfume; fragrant.
"a bunch of sweet-scented flowers"
synonymer:fragrant, aromatic, sweet-smelling, perfumed, balmy, scented; Mer - (of sound) melodious or harmonious.
"the sweet notes of the flute"
synonymer:musical, tuneful, dulcet, melodious, lyrical, mellifluous, soft, harmonious, euphonious, silvery, honeyed, liquid, mellow, rich, smooth, sweet-sounding, sweet-toned, silver-toned, bell-like, golden
"she sang the tune in her sweet silvery voice"
- (of air, water, or food) fresh, pure, and untainted.
- 2.
pleasing in general; delightful.
"it was the sweet life he had always craved"
synonymer:pleasant, pleasing, agreeable, delightful, nice, satisfying, gratifying, welcome, good, acceptable, to one's liking, entertaining, charming, inviting, attractive, fine; Mer - 3.
(of a person or action) pleasant and kind or thoughtful.
"a very sweet nurse came along"
synonymer:likeable, appealing, engaging, amiable, pleasant, agreeable, genial, friendly, nice, good-natured, kind, kindly, kind-hearted, thoughtful, considerate; Mer- charming and endearing.
"a sweet little cat"
synonymer:cute, lovable, adorable, endearing, charming, attractive, dear;
informaladorbs
"she looks quite sweet all tucked up" - dear; beloved.
"my sweet love"
synonymer:dear, dearest, darling, beloved, loved, cherished, precious, treasured, prized, worshipped, idolized
"my sweet little sister"
- charming and endearing.
- 4.
informaldated
infatuated or in love with.
"she seemed quite sweet on him"
synonymer:fond of, taken with, attracted to, charmed by, captivated by, enchanted by, in love with, enamoured of, infatuated with, love-struck by, keen on, devoted to, smitten with, head over heels in love with; Mer
noun
- 1.
BRITISH
a small shaped piece of confectionery made with sugar.
"a bag of sweets"
synonymer:piece of confectionery, chocolate, bonbon, fondant, toffee; Mer - 2.
BRITISH
a sweet dish forming a course of a meal; a pudding or dessert.
synonymer:dessert, pudding, sweet course, second course, last course; Mer - 3.
used as an affectionate form of address.
"hello, my sweet"
synonymer:dear, darling, dearest, dear one, love, sweetheart, beloved, honey, pet, treasure, angel
"happy birthday my sweet!"
and the gods of sweetness:
from wikipedia
2017 sep 26
In Greek mythology, Hedylogos or Hedylogus (Ancient Greek: Ἡδυλογος) was the god of sweet-talk and flattery and one of the winged love gods called the Erotes. He is not mentioned in any existing literature, but he is depicted on ancient Greek vase paintings. A surviving example on a red-figure pyxis from the late 5th century BC shows Hedylogos alongside his brother Pothos drawing the chariot of Aphrodite.
Ambroisia as the sweetness of the drink of eternal life:probably based on the
link of Hedylogos and Ambroisia
as
Hedylogosambrosia
from the depictions of ancient Greek vase paintings of it.
In the ancient Greek myths, ambrosia (/æmˈbroʊʒə/, Greek: ἀμβροσία, "immortality") is sometimes the food or drink of the Greek gods, often depicted as conferring longevity or immortality upon whoever consumed it.[1] It was brought to the gods in Olympus by doves.[2]
Ambrosia is sometimes depicted in ancient art as distributed by a nymph labeled with that name.[3] In the myth of Lycurgus, an opponent to the wine god Dionysus, violence committed against Ambrosia turns her into a grapevine.
Hedylogos