Proof That It Should Not Be In The Human Body Friday, February 14, 2014 Coke is
the most valuable brand in history, and “Coca-Cola” is the world's second-most
recognized word after “hello.” However, the beverage itself is an absolute
poison to the human metabolism. Coke is very close to the acidity level of
battery acid and consequently it can clean surfaces equivalent to and often
better than many toxic household cleaners. 20 Practical Uses for Coca-Cola.
Proof That It Should Not Be In The Human Body It's cheaper and easier to buy
Coke in some third world countries than it is to access clean water. Coke uses
“public relations propaganda” to convince consumers and entire nations that it
is an “environmental company” when really it is linked to pollution, water
shortages, and disease. People who consume soft drinks such as Coke have a 48%
increase in heart attack and stroke risk, compared to people who did not drink
the sodas at all or did not drink them every day. A study published in the
journal Respirologyreveals that soft drink consumption is also associated with
lung and breathing disorders including asthma and chronic obstructive pulmonary
disease (COPD). The carbonation in Coke causes calcium loss in the bones
through a 3-stage process: The carbonation irritates the stomach. The stomach
“cures” the irritation the only way it knows how. It adds the only antacid at
its disposal: calcium. It gets this from the blood. The blood, now low on
calcium, replenishes its supply from the bones. If it did not do this, muscular
and brain function would be severely impaired. But, the story doesn't end
there. Another problem with most Coke is it also contain phosphoric acid (not
the same as the carbonation, which is carbon dioxide mixed with the water).
Phosphoric acid also causes a draw-down on the body's store of calcium. So Coke
softens your bones (actually, makes them weak and brittle) in 3 ways:
Carbonation reduces the calcium in the bones. Phosphoric acid reduces the
calcium in the bones. The beverage replaces a calcium-containing alternative,
such as milk or water. Milk and water are not excellent calcium sources, but
they are sources. Esophageal cancer was very rare two generations ago — now,
it's common. The basic mechanism works as follows: Mechanical damage to cells
is a huge risk factor for cancer. It's why asbestos particles, for example,
cause lung cancer. All soft drinks cause acid reflux (stomach acid rising up
past the esophageal valve). This is more pronounced when the body is horizontal
(as in sleeping), but the sheer volume of Coke and soft drinks consumed in the
USA means the acid reflux is well past the danger point. Any time you ingest a
gassy drink, you are going to get belching–and acid into the esophagus. How
much is too much? The research doesn’t say where the limit is–it only shows
that most of us are far, far, far past it. tomach acid dissolves tissue —
that's its purpose. The stomach lining does not extend into the esophagus, so
the lower esophagus gets damaged by acid far more frequently in soft drink
users than in non soft drink users. This results in a radical increase in cell
mutations, along with a far higher level of free radicals. 20 Practical Uses
For Coke Coke acts as an acidic cleaner. The amount of acid in soda is enough
to wear away at the enamel of your teeth, making them more susceptible to
decay. In tests done on the acidity levels of soda, certain ones were found to
have PH levels as low as 2.5. To put that into perspective, consider that
battery acid has a pH of 1 and pure water has a pH of 7. To prove Coke does not
belong in the human body, here are 20 practical ways you can use Coke as a
domestic cleaner: Removes grease stains from clothing and fabric Removes rust;
methods include using fabric dipped in Coke, a sponge or even aluminum foil.
Also loosens rusty bolts Removes blood stains from clothing and fabric. Cleans
oil stains from a garage floor; let the stain soak, hose off. Kills slugs and
snails; the acids kills them. Cleans burnt pans; let the pan soak in the Coke,
then rinse. Descales a kettle (same method as with burnt pans) Cleans car
battery terminals by pouring a small amount of Coke over each one. Cleans your
engine; Coke distributors have been using this technique for decades. Makes pennies
shine; soaking old pennies in Coke will remove the tarnish. Cleans tile grout;
pour onto kitchen floor, leave for a few minutes, wipe up. Dissolves a tooth;
Use a sealed container…takes a while but it does work. Removes gum from hair;
dip into a small bowl of Coke, leave a few minutes. Gum will wipe off. Removes
stains from vitreous china. Got a dirty pool? Adding two 2-liter bottles of
Coke clears up rust. You can remove (or fade) dye from hair by pouring diet
Coke over it. Remove marker stains from carpet. Applying Coke, scrubbing and
then clean with soapy water will remove marker stains. Cleans a toilet; pour
around bowl, leave for a while, flush clean. Coke and aluminum foil will bring
Chrome to a high shine. Strips paint off metal furniture. Soak a towel in Coke
and lay it on the paint surface. Now can you imagine what it does to your
stomach lining? Who needs the ‘household and cleaning’ section at the hardware
store when we have Coke. Have you ever wondered what exactly Coca Cola is?
After 10 minutes: The sugar contained in a glass of Cola can cause a
devastating “strike” on the body. The cause being the phosphoric acid which
inhibits the action of sugar. After 20 minutes: A leap in insulin levels in
bloodstream occurs. After 40 minutes: Ingestion of caffeine is finally
completed. The eye's pupils are expanding. Blood pressure rises because the
liver disposes more sugar into the bloodstream. The adenosine receptors become
blocked thereby preventing drowsiness. After 45 minutes: The body raises production
of the dopamine hormone, which stimulates the brain pleasure center. Similar to
the reaction Heroin creates. After 1 hour: Phosphoric acid binds calcium,
magnesium and zinc in the gastrointestinal tract, which supercharges
metabolism. The release of calcium through urine takes place. After more than 1
hour: Diuretic effects of the drink enters in “the game”. The calcium,
magnesium and zinc are removed out of the body, which are a part of our bones,
as well as sodium. At this time we can become irritable or subdued. The whole
quantity of water, contained in a coca cola, is removed through urination. When
having a cold bottle of Coke and enjoying its undeniable freshness are we aware
of what chemical “cocktail” we are putting into our bodies? The active ingredient
in Coca-Cola is orthophosphoric acid. Due to its high acidity, cisterns used
for transporting the chemical have to be equipped with special reservoirs
designed for highly corrosive materials. Let's have a look at “the anatomy” of
one of the most advertised products of “Coca-Cola Co.” – Coca-Cola Light
without caffeine. This drink contains Aqua Carbonated, E150D, E952, E951, E338,
E330, Aromas, E211. Aqua Carbonated – this is sparkling water. It stirs gastric
secretion, increases the acidity of the gastric juice and provokes flatulency.
Filtered tap water is what is primarily used. E150D – this is food coloring
obtained through the processing of sugar at specified temperatures, with or
without addition of chemical reagents. In the case of coca-cola, ammonium
sulfate is added. E952– Sodium Cyclamate is a sugar substitute. Cyclamate is a
synthetic chemical, has a sweet taste, which is 200 times sweeter than sugar,
and is used as an artificial sweetener. In 1969 it was banned by FDA, since it,
as well as saccharin and aspartame, caused cancer in rats. E950– Acesulfame
Potassium. 200 times sweeter than sugar, containing methyl-ether. It aggravates
the operation of the cardiovascular system. Likewise, it contains asparaginic
acid which can also cause an excitant effect on our nervous system and in time
it can lead to addiction. Acesulfame is badly dissolved and is not recommended
for use by children and pregnant women. E951– Aspartame. A sugar substitute for
diabetics and is chemically unstable at elevated temperatures it breaks down
into methanol and phenylalanine. Methanol is very dangerous as only 5-10ml can
cause destruction of the optic nerve and irreversible blindness. In warm soft
drinks, aspartame transforms into formaldehyde which is a very strong carcinogen.
Symptoms of aspartame poisoning include: unconsciousness, headaches, fatigue,
dizziness, nausea, palpitation, weight gain, irritability, anxiety, memory
loss, blurry vision, fainting, joint pains, depression, infertility, hearing
loss and more. Aspartame can also provoke the following diseases: brain tumors,
MS (Multiple Sclerosis), epilepsy, Graves’ disease, chronic fatigue,
Alzheimer’s, diabetes, mental deficiency and tuberculosis. Later, this
substance was initially illegal due to its dangers but was again made legal in
a suspicious manner. E338– Orthophosphoric Acid. This can cause irritation of
the skin and eyes. It is used for production of phosphoric acid salts of
ammonia, sodium, calcium, aluminum and also in organic synthesis for the production
of charcoal and film tapes. It is also used in the production of refractory
materials, ceramics, glass, fertilizers, synthetic detergents, medicine,
metalworking, as well as in the textile and oil industries. It is known that
orthophosphoric acid interferes with the absorption of calcium and iron into
the body which can cause weakening of bones and osteoporosis. Other side
effects are thirst and skin rashes. E330– Citric Acid. It is widely used in
pharmaceutical and food industries. Salts of citric acid (citrates) are used in
the food industry as acids, preservatives, stabilizers, and in the medical
fields – for preserving blood. Aromas– unknown aromatic additives E211– Sodium
Benzoate. It is used in production of some food products for anti-bacterial and
anti-fungal purposes. It is often found in jams, fruit juices and fruit
yogurts. It's not recommended for use by asthmatics and people who are
sensitive to aspirin. A study conducted by Peter Piper at the Sheffield
University in Britain, found that this compound causes significant damage to
DNA. According to Peter, sodium benzoate which is an active component in
preservatives, doesn't destroy DNA, but deactivates it. This can lead to
cirrhosis and degenerative diseases like Parkinson's disease. Coca-Cola is
undeniably a very useful product.
The key is to use it for purposes that do not
include drinking! Here is a video about Coca-Cola! Read More: http://www.whydontyoutrythis.com/2014/02/20-practical-uses-for-coca-cola-proof-that-it-should-not-be-in-the-human-body.html
| Follow us on Facebook: http://www.facebook.com/whydontyoutrythis
20 Practical Uses for Coca-Cola. Proof That It Should Not Be In The
Human Body
Friday, February 14, 2014
Coke is the most valuable brand in history, and “Coca-Cola” is the
world's second-most recognized word after “hello.” However, the beverage
itself is an absolute poison to the human metabolism. Coke is very
close to the acidity level of battery acid and consequently it can clean
surfaces equivalent to and often better than many toxic household
cleaners.
20 Practical Uses for Coca-Cola. Proof That It Should Not Be In The
Human Body
It's cheaper and easier to buy Coke in some third world countries than
it is to access clean water. Coke uses “public relations propaganda” to
convince consumers and entire nations that it is an “environmental
company” when really it is linked to pollution, water shortages, and
disease.
People who consume soft drinks such as Coke have a 48% increase in heart
attack and stroke risk, compared to people who did not drink the sodas
at all or did not drink them every day. A study published in the journal
Respirologyreveals that soft drink consumption is also associated with
lung and breathing disorders including asthma and chronic obstructive
pulmonary disease (COPD).
The carbonation in Coke causes calcium loss in the bones through a
3-stage process:
The carbonation irritates the stomach.
The stomach “cures” the irritation the only way it knows how. It
adds the only antacid at its disposal: calcium. It gets this from the
blood.
The blood, now low on calcium, replenishes its supply from the
bones. If it did not do this, muscular and brain function would be
severely impaired.
But, the story doesn't end there. Another problem with most Coke is it
also contain phosphoric acid (not the same as the carbonation, which is
carbon dioxide mixed with the water). Phosphoric acid also causes a
draw-down on the body's store of calcium.
So Coke softens your bones (actually, makes them weak and brittle) in 3
ways:
Carbonation reduces the calcium in the bones.
Phosphoric acid reduces the calcium in the bones.
The beverage replaces a calcium-containing alternative, such as milk
or water. Milk and water are not excellent calcium sources, but they
are sources.
Esophageal cancer was very rare two generations ago — now, it's common.
The basic mechanism works as follows:
Mechanical damage to cells is a huge risk factor for cancer. It's
why asbestos particles, for example, cause lung cancer.
All soft drinks cause acid reflux (stomach acid rising up past the
esophageal valve). This is more pronounced when the body is horizontal
(as in sleeping), but the sheer volume of Coke and soft drinks consumed
in the USA means the acid reflux is well past the danger point. Any time
you ingest a gassy drink, you are going to get belching–and acid into
the esophagus. How much is too much? The research doesn’t say where the
limit is–it only shows that most of us are far, far, far past it.
tomach acid dissolves tissue — that's its purpose. The stomach
lining does not extend into the esophagus, so the lower esophagus gets
damaged by acid far more frequently in soft drink users than in non soft
drink users. This results in a radical increase in cell mutations,
along with a far higher level of free radicals.
20 Practical Uses For Coke
Coke acts as an acidic cleaner. The amount of acid in soda is enough to
wear away at the enamel of your teeth, making them more susceptible to
decay. In tests done on the acidity levels of soda, certain ones were
found to have PH levels as low as 2.5. To put that into perspective,
consider that battery acid has a pH of 1 and pure water has a pH of 7.
To prove Coke does not belong in the human body, here are 20 practical
ways you can use Coke as a domestic cleaner:
Removes grease stains from clothing and fabric
Removes rust; methods include using fabric dipped in Coke, a sponge
or even aluminum foil. Also loosens rusty bolts
Removes blood stains from clothing and fabric.
Cleans oil stains from a garage floor; let the stain soak, hose off.
Kills slugs and snails; the acids kills them.
Cleans burnt pans; let the pan soak in the Coke, then rinse.
Descales a kettle (same method as with burnt pans)
Cleans car battery terminals by pouring a small amount of Coke over
each one.
Cleans your engine; Coke distributors have been using this technique
for decades.
Makes pennies shine; soaking old pennies in Coke will remove the
tarnish.
Cleans tile grout; pour onto kitchen floor, leave for a few minutes,
wipe up.
Dissolves a tooth; Use a sealed container…takes a while but it does
work.
Removes gum from hair; dip into a small bowl of Coke, leave a few
minutes. Gum will wipe off.
Removes stains from vitreous china.
Got a dirty pool? Adding two 2-liter bottles of Coke clears up rust.
You can remove (or fade) dye from hair by pouring diet Coke over it.
Remove marker stains from carpet. Applying Coke, scrubbing and then
clean with soapy water will remove marker stains.
Cleans a toilet; pour around bowl, leave for a while, flush clean.
Coke and aluminum foil will bring Chrome to a high shine.
Strips paint off metal furniture. Soak a towel in Coke and lay it on
the paint surface.
Now can you imagine what it does to your stomach lining?
Who needs the ‘household and cleaning’ section at the hardware store
when we have Coke.
Have you ever wondered what exactly Coca Cola is?
After 10 minutes: The sugar contained in a glass of Cola can cause a
devastating “strike” on the body. The cause being the phosphoric acid
which inhibits the action of sugar.
After 20 minutes: A leap in insulin levels in bloodstream occurs.
After 40 minutes: Ingestion of caffeine is finally completed. The eye's
pupils are expanding. Blood pressure rises because the liver disposes
more sugar into the bloodstream. The adenosine receptors become blocked
thereby preventing drowsiness.
After 45 minutes: The body raises production of the dopamine hormone,
which stimulates the brain pleasure center. Similar to the reaction
Heroin creates.
After 1 hour: Phosphoric acid binds calcium, magnesium and zinc in the
gastrointestinal tract, which supercharges metabolism. The release of
calcium through urine takes place.
After more than 1 hour: Diuretic effects of the drink enters in “the
game”. The calcium, magnesium and zinc are removed out of the body,
which are a part of our bones, as well as sodium. At this time we can
become irritable or subdued. The whole quantity of water, contained in a
coca cola, is removed through urination.
When having a cold bottle of Coke and enjoying its undeniable freshness
are we aware of what chemical “cocktail” we are putting into our bodies?
The active ingredient in Coca-Cola is orthophosphoric acid. Due to its
high acidity, cisterns used for transporting the chemical have to be
equipped with special reservoirs designed for highly corrosive
materials.
Let's have a look at “the anatomy” of one of the most advertised
products of “Coca-Cola Co.” – Coca-Cola Light without caffeine. This
drink contains Aqua Carbonated, E150D, E952, E951, E338, E330, Aromas,
E211.
Aqua Carbonated – this is sparkling water. It stirs gastric secretion,
increases the acidity of the gastric juice and provokes flatulency.
Filtered tap water is what is primarily used.
E150D – this is food coloring obtained through the processing of sugar
at specified temperatures, with or without addition of chemical
reagents. In the case of coca-cola, ammonium sulfate is added.
E952– Sodium Cyclamate is a sugar substitute. Cyclamate is a synthetic
chemical, has a sweet taste, which is 200 times sweeter than sugar, and
is used as an artificial sweetener. In 1969 it was banned by FDA, since
it, as well as saccharin and aspartame, caused cancer in rats.
E950– Acesulfame Potassium. 200 times sweeter than sugar, containing
methyl-ether. It aggravates the operation of the cardiovascular system.
Likewise, it contains asparaginic acid which can also cause an excitant
effect on our nervous system and in time it can lead to addiction.
Acesulfame is badly dissolved and is not recommended for use by children
and pregnant women.
E951– Aspartame. A sugar substitute for diabetics and is chemically
unstable at elevated temperatures it breaks down into methanol and
phenylalanine. Methanol is very dangerous as only 5-10ml can cause
destruction of the optic nerve and irreversible blindness. In warm soft
drinks, aspartame transforms into formaldehyde which is a very strong
carcinogen. Symptoms of aspartame poisoning include: unconsciousness,
headaches, fatigue, dizziness, nausea, palpitation, weight gain,
irritability, anxiety, memory loss, blurry vision, fainting, joint
pains, depression, infertility, hearing loss and more. Aspartame can
also provoke the following diseases: brain tumors, MS (Multiple
Sclerosis), epilepsy, Graves’ disease, chronic fatigue, Alzheimer’s,
diabetes, mental deficiency and tuberculosis. Later, this substance was
initially illegal due to its dangers but was again made legal in a
suspicious manner.
E338– Orthophosphoric Acid. This can cause irritation of the skin and
eyes. It is used for production of phosphoric acid salts of ammonia,
sodium, calcium, aluminum and also in organic synthesis for the
production of charcoal and film tapes. It is also used in the production
of refractory materials, ceramics, glass, fertilizers, synthetic
detergents, medicine, metalworking, as well as in the textile and oil
industries. It is known that orthophosphoric acid interferes with the
absorption of calcium and iron into the body which can cause weakening
of bones and osteoporosis. Other side effects are thirst and skin
rashes.
E330– Citric Acid. It is widely used in pharmaceutical and food
industries. Salts of citric acid (citrates) are used in the food
industry as acids, preservatives, stabilizers, and in the medical fields
– for preserving blood.
Aromas– unknown aromatic additives
E211– Sodium Benzoate. It is used in production of some food products
for anti-bacterial and anti-fungal purposes. It is often found in jams,
fruit juices and fruit yogurts. It's not recommended for use by
asthmatics and people who are sensitive to aspirin. A study conducted by
Peter Piper at the Sheffield University in Britain, found that this
compound causes significant damage to DNA. According to Peter, sodium
benzoate which is an active component in preservatives, doesn't destroy
DNA, but deactivates it. This can lead to cirrhosis and degenerative
diseases like Parkinson's disease.
Coca-Cola is undeniably a very useful product. The key is to use it for
purposes that do not include drinking! Here is a video about Coca-Cola!
Read More: http://www.whydontyoutrythis.com/2014/02/20-practical-uses-for-coca-cola-proof-that-it-should-not-be-in-the-human-body.html | Follow us on Facebook: http://www.facebook.com/whydontyoutrythis
20 Practical Uses for
Coca-Cola. Proof That It Should Not Be In The Human Body
Friday, February 14, 2014
Coke is the most valuable brand in history, and “Coca-Cola” is the
world's second-most recognized word after “hello.” However, the beverage
itself is an absolute poison to the human metabolism. Coke is very
close to the acidity level of battery acid and consequently it can clean
surfaces equivalent to and often better than many toxic household
cleaners.
20 Practical Uses for Coca-Cola. Proof That It Should Not Be In The
Human Body
It's cheaper and easier to buy Coke in some third world countries than
it is to access clean water. Coke uses “public relations propaganda” to
convince consumers and entire nations that it is an “environmental
company” when really it is linked to pollution, water shortages, and
disease.
People who consume soft drinks such as Coke have a 48% increase in heart
attack and stroke risk, compared to people who did not drink the sodas
at all or did not drink them every day. A study published in the journal
Respirologyreveals that soft drink consumption is also associated with
lung and breathing disorders including asthma and chronic obstructive
pulmonary disease (COPD).
The carbonation in Coke causes calcium loss in the bones through a
3-stage process:
The carbonation irritates the stomach.
The stomach “cures” the irritation the only way it knows how. It
adds the only antacid at its disposal: calcium. It gets this from the
blood.
The blood, now low on calcium, replenishes its supply from the
bones. If it did not do this, muscular and brain function would be
severely impaired.
But, the story doesn't end there. Another problem with most Coke is it
also contain phosphoric acid (not the same as the carbonation, which is
carbon dioxide mixed with the water). Phosphoric acid also causes a
draw-down on the body's store of calcium.
So Coke softens your bones (actually, makes them weak and brittle) in 3
ways:
Carbonation reduces the calcium in the bones.
Phosphoric acid reduces the calcium in the bones.
The beverage replaces a calcium-containing alternative, such as milk
or water. Milk and water are not excellent calcium sources, but they
are sources.
Esophageal cancer was very rare two generations ago — now, it's common.
The basic mechanism works as follows:
Mechanical damage to cells is a huge risk factor for cancer. It's
why asbestos particles, for example, cause lung cancer.
All soft drinks cause acid reflux (stomach acid rising up past the
esophageal valve). This is more pronounced when the body is horizontal
(as in sleeping), but the sheer volume of Coke and soft drinks consumed
in the USA means the acid reflux is well past the danger point. Any time
you ingest a gassy drink, you are going to get belching–and acid into
the esophagus. How much is too much? The research doesn’t say where the
limit is–it only shows that most of us are far, far, far past it.
tomach acid dissolves tissue — that's its purpose. The stomach
lining does not extend into the esophagus, so the lower esophagus gets
damaged by acid far more frequently in soft drink users than in non soft
drink users. This results in a radical increase in cell mutations,
along with a far higher level of free radicals.
20 Practical Uses For Coke
Coke acts as an acidic cleaner. The amount of acid in soda is enough to
wear away at the enamel of your teeth, making them more susceptible to
decay. In tests done on the acidity levels of soda, certain ones were
found to have PH levels as low as 2.5. To put that into perspective,
consider that battery acid has a pH of 1 and pure water has a pH of 7.
To prove Coke does not belong in the human body, here are 20 practical
ways you can use Coke as a domestic cleaner:
Removes grease stains from clothing and fabric
Removes rust; methods include using fabric dipped in Coke, a sponge
or even aluminum foil. Also loosens rusty bolts
Removes blood stains from clothing and fabric.
Cleans oil stains from a garage floor; let the stain soak, hose off.
Kills slugs and snails; the acids kills them.
Cleans burnt pans; let the pan soak in the Coke, then rinse.
Descales a kettle (same method as with burnt pans)
Cleans car battery terminals by pouring a small amount of Coke over
each one.
Cleans your engine; Coke distributors have been using this technique
for decades.
Makes pennies shine; soaking old pennies in Coke will remove the
tarnish.
Cleans tile grout; pour onto kitchen floor, leave for a few minutes,
wipe up.
Dissolves a tooth; Use a sealed container…takes a while but it does
work.
Removes gum from hair; dip into a small bowl of Coke, leave a few
minutes. Gum will wipe off.
Removes stains from vitreous china.
Got a dirty pool? Adding two 2-liter bottles of Coke clears up rust.
You can remove (or fade) dye from hair by pouring diet Coke over it.
Remove marker stains from carpet. Applying Coke, scrubbing and then
clean with soapy water will remove marker stains.
Cleans a toilet; pour around bowl, leave for a while, flush clean.
Coke and aluminum foil will bring Chrome to a high shine.
Strips paint off metal furniture. Soak a towel in Coke and lay it on
the paint surface.
Now can you imagine what it does to your stomach lining?
Who needs the ‘household and cleaning’ section at the hardware store
when we have Coke.
Have you ever wondered what exactly Coca Cola is?
After 10 minutes: The sugar contained in a glass of Cola can cause a
devastating “strike” on the body. The cause being the phosphoric acid
which inhibits the action of sugar.
After 20 minutes: A leap in insulin levels in bloodstream occurs.
After 40 minutes: Ingestion of caffeine is finally completed. The eye's
pupils are expanding. Blood pressure rises because the liver disposes
more sugar into the bloodstream. The adenosine receptors become blocked
thereby preventing drowsiness.
After 45 minutes: The body raises production of the dopamine hormone,
which stimulates the brain pleasure center. Similar to the reaction
Heroin creates.
After 1 hour: Phosphoric acid binds calcium, magnesium and zinc in the
gastrointestinal tract, which supercharges metabolism. The release of
calcium through urine takes place.
After more than 1 hour: Diuretic effects of the drink enters in “the
game”. The calcium, magnesium and zinc are removed out of the body,
which are a part of our bones, as well as sodium. At this time we can
become irritable or subdued. The whole quantity of water, contained in a
coca cola, is removed through urination.
When having a cold bottle of Coke and enjoying its undeniable freshness
are we aware of what chemical “cocktail” we are putting into our bodies?
The active ingredient in Coca-Cola is orthophosphoric acid. Due to its
high acidity, cisterns used for transporting the chemical have to be
equipped with special reservoirs designed for highly corrosive
materials.
Let's have a look at “the anatomy” of one of the most advertised
products of “Coca-Cola Co.” – Coca-Cola Light without caffeine. This
drink contains Aqua Carbonated, E150D, E952, E951, E338, E330, Aromas,
E211.
Aqua Carbonated – this is sparkling water. It stirs gastric secretion,
increases the acidity of the gastric juice and provokes flatulency.
Filtered tap water is what is primarily used.
E150D – this is food coloring obtained through the processing of sugar
at specified temperatures, with or without addition of chemical
reagents. In the case of coca-cola, ammonium sulfate is added.
E952– Sodium Cyclamate is a sugar substitute. Cyclamate is a synthetic
chemical, has a sweet taste, which is 200 times sweeter than sugar, and
is used as an artificial sweetener. In 1969 it was banned by FDA, since
it, as well as saccharin and aspartame, caused cancer in rats.
E950– Acesulfame Potassium. 200 times sweeter than sugar, containing
methyl-ether. It aggravates the operation of the cardiovascular system.
Likewise, it contains asparaginic acid which can also cause an excitant
effect on our nervous system and in time it can lead to addiction.
Acesulfame is badly dissolved and is not recommended for use by children
and pregnant women.
E951– Aspartame. A sugar substitute for diabetics and is chemically
unstable at elevated temperatures it breaks down into methanol and
phenylalanine. Methanol is very dangerous as only 5-10ml can cause
destruction of the optic nerve and irreversible blindness. In warm soft
drinks, aspartame transforms into formaldehyde which is a very strong
carcinogen. Symptoms of aspartame poisoning include: unconsciousness,
headaches, fatigue, dizziness, nausea, palpitation, weight gain,
irritability, anxiety, memory loss, blurry vision, fainting, joint
pains, depression, infertility, hearing loss and more. Aspartame can
also provoke the following diseases: brain tumors, MS (Multiple
Sclerosis), epilepsy, Graves’ disease, chronic fatigue, Alzheimer’s,
diabetes, mental deficiency and tuberculosis. Later, this substance was
initially illegal due to its dangers but was again made legal in a
suspicious manner.
E338– Orthophosphoric Acid. This can cause irritation of the skin and
eyes. It is used for production of phosphoric acid salts of ammonia,
sodium, calcium, aluminum and also in organic synthesis for the
production of charcoal and film tapes. It is also used in the production
of refractory materials, ceramics, glass, fertilizers, synthetic
detergents, medicine, metalworking, as well as in the textile and oil
industries. It is known that orthophosphoric acid interferes with the
absorption of calcium and iron into the body which can cause weakening
of bones and osteoporosis. Other side effects are thirst and skin
rashes.
E330– Citric Acid. It is widely used in pharmaceutical and food
industries. Salts of citric acid (citrates) are used in the food
industry as acids, preservatives, stabilizers, and in the medical fields
– for preserving blood.
Aromas– unknown aromatic additives
E211– Sodium Benzoate. It is used in production of some food products
for anti-bacterial and anti-fungal purposes. It is often found in jams,
fruit juices and fruit yogurts. It's not recommended for use by
asthmatics and people who are sensitive to aspirin. A study conducted by
Peter Piper at the Sheffield University in Britain, found that this
compound causes significant damage to DNA. According to Peter, sodium
benzoate which is an active component in preservatives, doesn't destroy
DNA, but deactivates it. This can lead to cirrhosis and degenerative
diseases like Parkinson's disease.
Coca-Cola is undeniably a very useful product. The key is to use it for
purposes that do not include drinking! Here is a video about Coca-Cola!
Read More: http://www.whydontyoutrythis.com/2014/02/20-practical-uses-for-coca-cola-proof-that-it-should-not-be-in-the-human-body.html | Follow us on Facebook: http://www.facebook.com/whydontyoutrythis
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