The Forces of Nature by Kelland Terry, Ph.D.
There was no electricity to our farm house when I was a small child, and there was no bathroom for several years. To take a bath, Mother heated some water on our wood stove, and we took turns bathing in a number 2 (?) metal tub. Today we are absolutely dependent upon electricity, and thankfully so because I don’t even own a number 2 tub. At the heart of electricity lies the electron.
The electron is a busy little particle. It creates electric fields, magnetic fields, and gravitational fields. These fields are self inducing. The creation and retraction of the elastic strings that make up these fields continually cause new fields to form as old fields disappear. It is a cyclical process that mirrors the oscillation period of an electron. I refer to it as the electron’s string cycle.
The electron makes n-magnons that arise from the north pole of the electron and it makes an equal number of s-magnons that arise from the south pole of the electron. When they meet in space they bond and retract against the surface of the electron. They form a fabric of strings that surround the electron, and when they retract they exert great inward pressure on the electron. This also happens for the electric fields as discussed in my next blog. Kelland—www.vestheory.com
Showing posts with label electrons. Show all posts
Showing posts with label electrons. Show all posts
Saturday, October 29, 2011
Thursday, October 27, 2011
Elastic strings meet and bond
The Forces of Nature by Kelland Terry, Ph.D.
The space about us contains a vast number of gravitons and other strings that form a dense matrix in space. We can not personally sense them because of their perfect elasticity, their almost insignificant mass, and the great distance they are shot into space. However, in a previous blog, I did explain my own experiments that show us that a spinning Ping-Pong ball is deflected by a magnetic field and continues to curve even in a vacuum. Thus, strings have a physical presence in space, they have mass. This conclusion is supported by various phenomena in our solar system, which I will go into at a later time.
Scientists have shown that magnetic fields and electric fields created by photons emanate from these particles at a 90 degree angle to the particle’s line of flight. It is reasonable that the photon’s strings are at least partially swept to the rear of the particle as it flies through a matrix of gravitons. In the same manner, the electron’s n-magnons and s-magnons are to some extent swept to the rear where they meet and bond as the electron rotates around the proton. Kelland—www.vestheory.com
The space about us contains a vast number of gravitons and other strings that form a dense matrix in space. We can not personally sense them because of their perfect elasticity, their almost insignificant mass, and the great distance they are shot into space. However, in a previous blog, I did explain my own experiments that show us that a spinning Ping-Pong ball is deflected by a magnetic field and continues to curve even in a vacuum. Thus, strings have a physical presence in space, they have mass. This conclusion is supported by various phenomena in our solar system, which I will go into at a later time.
Scientists have shown that magnetic fields and electric fields created by photons emanate from these particles at a 90 degree angle to the particle’s line of flight. It is reasonable that the photon’s strings are at least partially swept to the rear of the particle as it flies through a matrix of gravitons. In the same manner, the electron’s n-magnons and s-magnons are to some extent swept to the rear where they meet and bond as the electron rotates around the proton. Kelland—www.vestheory.com
Monday, October 10, 2011
Electron is composed of two spheres
The Forces of Nature by Kelland Terry, Ph.D.
It is my understanding now that a civet cat is vegetarian, which probably explains why it didn’t bite my toes that it seemed to sniff with pleasure. To me a cat was a cat, and a cat was a carnivore, and here he was sniffing my toes while I remained absolutely frozen in place. Fortunately, this curious, wild animal finished smelling my feet, then climbed underneath my chair and began scratching away at something. I slowly let out a sigh of relief. That night when I prepared for bed, I thought perhaps I could entice the civet cat to leave the house. To this end, I cut an apple into pieces and made a trail of apple parts from the chair to the porch outside the house where I left the apple core. I left the front door open and went to bed. What happened next was not expected.
Just as there must be male and female civet cats to make little civet cats, there must be a division of the electron if it makes n-magnons and s-magnons because these two strings have the same mass but different composition. The electron must be divided into two spheres. One sphere is composed of a substance I call s-goo and the other sphere is composed of n-goo. The same considerations must apply to photons (particles of light) and quarks since both of these particles create n-magnons and s-magnons.
I have developed a model that explains how electrons are divided into two spheres, and a model that explains the self induction of the forces of nature. I will return to this subject after I have discussed some additional properties of elastic strings
Kelland—www.vestheory.com
It is my understanding now that a civet cat is vegetarian, which probably explains why it didn’t bite my toes that it seemed to sniff with pleasure. To me a cat was a cat, and a cat was a carnivore, and here he was sniffing my toes while I remained absolutely frozen in place. Fortunately, this curious, wild animal finished smelling my feet, then climbed underneath my chair and began scratching away at something. I slowly let out a sigh of relief. That night when I prepared for bed, I thought perhaps I could entice the civet cat to leave the house. To this end, I cut an apple into pieces and made a trail of apple parts from the chair to the porch outside the house where I left the apple core. I left the front door open and went to bed. What happened next was not expected.
Just as there must be male and female civet cats to make little civet cats, there must be a division of the electron if it makes n-magnons and s-magnons because these two strings have the same mass but different composition. The electron must be divided into two spheres. One sphere is composed of a substance I call s-goo and the other sphere is composed of n-goo. The same considerations must apply to photons (particles of light) and quarks since both of these particles create n-magnons and s-magnons.
I have developed a model that explains how electrons are divided into two spheres, and a model that explains the self induction of the forces of nature. I will return to this subject after I have discussed some additional properties of elastic strings
Kelland—www.vestheory.com
Saturday, October 8, 2011
To summerize a bit
The Forces of Nature by Kelland Terry, Ph.D.
One winter night, I arrived at our old farm house after driving from Salt Lake where I was attending college. It was shortly before Christmas and Mother and my sisters were in Las Vegas. They were expected home the next day. I had a fire in our little stove in the living room, which quickly took the chill out of the room. I removed my shoes and socks, relaxed in a chair next to the stove, and commenced reading a book. I was all alone or so I thought. It wasn’t long until I heard a scratching sound coming from a nearby sofa. Presently, a wild civet cat appeared from the back of the sofa and walked directly over to me. It stopped at my feet and began sniffing my toes up close and personal. I froze! Perhaps at this point, he recognized a kindred spirit, or perhaps a kindred smell. A civet cat is a type of skunk found in southern Utah. It is tawny brown in color and distinctly different from striped skunks, spotted skunks, and ringtail cats. It is longer and slightly smaller than most house cats.
Just as civet cats prove to be complex little creatures so do electrons prove to be complex little particles.
Thus far we have seen:
• Electrons orbit about protons, and in addition, they are free to move through a wire.
• It takes just one electron and one proton to make a hydrogen atom, and many of these same particles along with neutrons (similar to protons but electrically neutral) to make other atoms. That’s it. All atoms are made of the same building blocks, and they all have perfect elasticity.
• Electrons create an excess number of e-electon strings with perfect elasticity.
• Protons create an excess number of p-electon strings with perfect elasticity.
• Electrons become bound to the protons they orbit because e-electons bind to p-electons and when they retract back to their sources it causes a force of attraction. This holds the electron in orbit about the proton.
• When e-electons and p-electons come in contact they neutralize each other. Atoms and earth tend to be neutral because there are an equal number of electrons and protons.
• E-electons and p-electons have the same mass but different composition.
• When two e-electrons meet there is a force of repulsion between them because two e-electons have the same mass and the same composition. This is also true for two p-electons.
Electrons also create magnetic fields.
• An electron emits n-magnons at one end of the particle and s-magnons at the other end of the particle.
• N-magnons and s-magnons have the same mass but different composition. Their masses differ from electons.
• When n-magnons meet with s-magnons they bond together and when they retract back to their sources it causes a force of attraction.
• When n-magnons meet other n-magnons, it creates a force of repulsion because they have the same mass and the same composition. The same is true for two s-magnons. Till then, be safe and in good health. Kelland—www.vestheory.com
One winter night, I arrived at our old farm house after driving from Salt Lake where I was attending college. It was shortly before Christmas and Mother and my sisters were in Las Vegas. They were expected home the next day. I had a fire in our little stove in the living room, which quickly took the chill out of the room. I removed my shoes and socks, relaxed in a chair next to the stove, and commenced reading a book. I was all alone or so I thought. It wasn’t long until I heard a scratching sound coming from a nearby sofa. Presently, a wild civet cat appeared from the back of the sofa and walked directly over to me. It stopped at my feet and began sniffing my toes up close and personal. I froze! Perhaps at this point, he recognized a kindred spirit, or perhaps a kindred smell. A civet cat is a type of skunk found in southern Utah. It is tawny brown in color and distinctly different from striped skunks, spotted skunks, and ringtail cats. It is longer and slightly smaller than most house cats.
Just as civet cats prove to be complex little creatures so do electrons prove to be complex little particles.
Thus far we have seen:
• Electrons orbit about protons, and in addition, they are free to move through a wire.
• It takes just one electron and one proton to make a hydrogen atom, and many of these same particles along with neutrons (similar to protons but electrically neutral) to make other atoms. That’s it. All atoms are made of the same building blocks, and they all have perfect elasticity.
• Electrons create an excess number of e-electon strings with perfect elasticity.
• Protons create an excess number of p-electon strings with perfect elasticity.
• Electrons become bound to the protons they orbit because e-electons bind to p-electons and when they retract back to their sources it causes a force of attraction. This holds the electron in orbit about the proton.
• When e-electons and p-electons come in contact they neutralize each other. Atoms and earth tend to be neutral because there are an equal number of electrons and protons.
• E-electons and p-electons have the same mass but different composition.
• When two e-electrons meet there is a force of repulsion between them because two e-electons have the same mass and the same composition. This is also true for two p-electons.
Electrons also create magnetic fields.
• An electron emits n-magnons at one end of the particle and s-magnons at the other end of the particle.
• N-magnons and s-magnons have the same mass but different composition. Their masses differ from electons.
• When n-magnons meet with s-magnons they bond together and when they retract back to their sources it causes a force of attraction.
• When n-magnons meet other n-magnons, it creates a force of repulsion because they have the same mass and the same composition. The same is true for two s-magnons. Till then, be safe and in good health. Kelland—www.vestheory.com
Tuesday, October 4, 2011
Force of repulsion between electrons
The Forces of Nature by Kelland Terry, Ph.D.
When we were kids, my two younger sisters and I would take the rubber balloons we had blown up and rub them against our clothing. This caused the balloons to become electrically charged. I have since learned that electrons flow from clothing to a rubber balloon giving the balloon a surplus of electrons with a negative charge. When two such balloons are brought close together, a force of repulsion develops between them and the balloons are forced apart.
Two electrons repel each other; it is called a force of repulsion. When an e-electon from one electron meets an e-electon from another electron, the e-electons likely bond in some fashion, and because of the bonding, the heads of the e-electons are sent crashing against the opposing electrons. Thus, the e-electons with mass and momentum become battering rams that drive the electrons apart. Viola, we now have a force of repulsion. Thus, we come to this conclusion. A force of repulsion is caused when two strings of identical mass and identical composition meet. Till then, be safe and in good health. Kelland—www.vestheory.com
When we were kids, my two younger sisters and I would take the rubber balloons we had blown up and rub them against our clothing. This caused the balloons to become electrically charged. I have since learned that electrons flow from clothing to a rubber balloon giving the balloon a surplus of electrons with a negative charge. When two such balloons are brought close together, a force of repulsion develops between them and the balloons are forced apart.
Two electrons repel each other; it is called a force of repulsion. When an e-electon from one electron meets an e-electon from another electron, the e-electons likely bond in some fashion, and because of the bonding, the heads of the e-electons are sent crashing against the opposing electrons. Thus, the e-electons with mass and momentum become battering rams that drive the electrons apart. Viola, we now have a force of repulsion. Thus, we come to this conclusion. A force of repulsion is caused when two strings of identical mass and identical composition meet. Till then, be safe and in good health. Kelland—www.vestheory.com
Saturday, October 1, 2011
Particles that make elastic strings
The Forces of Nature by Kelland Terry, Ph.D.
Growing up on the farm always gave me plenty to do. For one thing, from the age of 10 on, I milked our cow every night and morning. I had it down pat. I could leave the house on a dead run, feed the cow a helping of oats, milk her, and get back to the house in 10 minutes (okay, maybe this is a slight exaggeration). She was a jersey cow and she gave us about one gallon of milk twice a day. This was a big source of food for our family because not only did we drink lots of milk, Mother also used it to make cottage cheese, gravies, hot cereals, and we ran the milk through a separator that left us with a good supply of cream for Mother to make butter and butter milk. I suspect I always went to school with a slight smell of barnyard and milk cow.
These days I find myself thinking of gravity and the elastic strings that make my theory work. There are three different particles that are known to create force fields. They are photons (small particles that make up light), electrons (tiny particles that orbit protons or flow through an electric wire), and quarks (not much bigger than electrons) that are found inside the nucleus of the atom. Electrons and photons create electric fields, magnetic fields, and gravitational fields. Quarks also create these same fields, and in addition they create the fields responsible for the nuclear forces. The fields are composed of elastic strings, and each force has its own distinctive strings.
Growing up on the farm always gave me plenty to do. For one thing, from the age of 10 on, I milked our cow every night and morning. I had it down pat. I could leave the house on a dead run, feed the cow a helping of oats, milk her, and get back to the house in 10 minutes (okay, maybe this is a slight exaggeration). She was a jersey cow and she gave us about one gallon of milk twice a day. This was a big source of food for our family because not only did we drink lots of milk, Mother also used it to make cottage cheese, gravies, hot cereals, and we ran the milk through a separator that left us with a good supply of cream for Mother to make butter and butter milk. I suspect I always went to school with a slight smell of barnyard and milk cow.
These days I find myself thinking of gravity and the elastic strings that make my theory work. There are three different particles that are known to create force fields. They are photons (small particles that make up light), electrons (tiny particles that orbit protons or flow through an electric wire), and quarks (not much bigger than electrons) that are found inside the nucleus of the atom. Electrons and photons create electric fields, magnetic fields, and gravitational fields. Quarks also create these same fields, and in addition they create the fields responsible for the nuclear forces. The fields are composed of elastic strings, and each force has its own distinctive strings.
Thursday, September 29, 2011
Electrons deflected by magnetic field
The Forces of Nature by Kelland Terry, Ph.D.
My wife purchased the Robo-Pong as a gift for me. She knew that I had a strong love of the game that began in my childhood. When I was a child our small dining room table also served as a Ping-Pong table. It was too short but it didn’t matter. It was there I learned how top spin could be used to keep the ball from flying off the end of the table, and under spin would often cause my opponent to hit the ball into the net. It was these observations that gave me the idea to test the curvature of a ball in a magnetic field. I was almost dumbfounded, however, when I found that a spinning table tennis ball curves more in a magnetic field. The field must have physical properties. It must have mass.
Spinning Ping-Pong balls in flight are not the only particles that are deflected in a magnetic field. Physicists have shown that a stream of electrons traveling between the north pole and south pole of a magnet are deflected. When the electrons strike the elastic string barrier created by magnetic field, it causes the spinning electrons to move more or less at right angles to their movement through the wire. They literally push the wire up as they bang against the atoms in their path, and this movement is used in an electric motor to cause a rod to spin. Viola, you have converted electric energy to mechanical energy. Notice, the magnet only provides a barrier to the onrushing electrons; it serves no other purpose to the motor.
My wife purchased the Robo-Pong as a gift for me. She knew that I had a strong love of the game that began in my childhood. When I was a child our small dining room table also served as a Ping-Pong table. It was too short but it didn’t matter. It was there I learned how top spin could be used to keep the ball from flying off the end of the table, and under spin would often cause my opponent to hit the ball into the net. It was these observations that gave me the idea to test the curvature of a ball in a magnetic field. I was almost dumbfounded, however, when I found that a spinning table tennis ball curves more in a magnetic field. The field must have physical properties. It must have mass.
Spinning Ping-Pong balls in flight are not the only particles that are deflected in a magnetic field. Physicists have shown that a stream of electrons traveling between the north pole and south pole of a magnet are deflected. When the electrons strike the elastic string barrier created by magnetic field, it causes the spinning electrons to move more or less at right angles to their movement through the wire. They literally push the wire up as they bang against the atoms in their path, and this movement is used in an electric motor to cause a rod to spin. Viola, you have converted electric energy to mechanical energy. Notice, the magnet only provides a barrier to the onrushing electrons; it serves no other purpose to the motor.
Subscribe to:
Posts (Atom)