Ending illegal secrecy about our brains and how we remember as the model for the brain
but also fro the way civilization makes us remember ourselves.
but also fro the way civilization makes us remember ourselves.
HOW MEMORY is made.
by Henryk Szubinski
To understand the memories we must first know the types of stimuli that make them and their values.
It may be so that these special senses were pized highly in the "states of alternate awareness of the various civilizations" and that their systems were some
means to record of find the local positions of the 5 senses in their pyramids as the way that the 4 sides of the pyramids has an apex.
The Mayan Calendar of 1012 may just one such computation.
Other explanations are that the 5 senses are easily mixed so that they define our use of language and bodily expressions and may be made to interact with each other in any way possible. It is what makes us humans special, and without
limitations.
Hearing: The range of decibel levels are:
The range of human hearing is generally considered to be 20 Hz to 20 kHz, but it is far more sensitive to sounds between 1 kHz and 4 kHz. For example, listeners can detect sounds as low as 0 dB SPL at 3 kHz, but require 40 dB SPL at 100 hertz (an amplitude increase of 100).
The human range is commonly given as 20 to 20,000 Hz, though there is considerable variation between individuals, especially at high frequencies, and a gradual loss of sensitivity to higher frequencies with age is considered normal.
Sight an the eyes and their sense perception as brightness levels.
This has color brightness and sensitivity of day and night luminoscity.
The visible spectrum is the portion of the electromagnetic spectrum that is visible to the human eye. Electromagnetic radiation in this range of wavelengths is called visible light or simply light. A typical human eye will respond to wavelengths from about 390 to 700 nm.
from Wikipedia
2017
oct 15
The visible spectrum is the portion of the electromagnetic spectrum that is visible to the human eye. Electromagnetic radiation in this range of wavelengths is called visible light or simply light. A typical human eye will respond to wavelengths from about 390 to 700 nm.[1] In terms of frequency, this corresponds to a band in the vicinity of 430–770 THz.
The spectrum does not, however, contain all the colors that the human eyes and brain can distinguish. Unsaturated colors such as pink, or purplevariations such as magenta, are absent, for example, because they can be made only by a mix of multiple wavelengths. Colors containing only one wavelength are also called pure colors or spectral colors.
Visible wavelengths pass through the "optical window", the region of the electromagnetic spectrum that allows wavelengths to pass largely unattenuated through the Earth's atmosphere. An example of this phenomenon is that clean air scatters blue light more than red wavelengths, and so the midday sky appears blue. The optical window is also referred to as the "visible window" because it overlaps the human visible response spectrum. The near infrared (NIR) window lies just out of the human vision, as well as the Medium Wavelength IR (MWIR) window, and the Long Wavelength or Far Infrared (LWIR or FIR) window, although other animals may experience them.
This has color brightness and sensitivity of day and night luminoscity.
The visible spectrum is the portion of the electromagnetic spectrum that is visible to the human eye. Electromagnetic radiation in this range of wavelengths is called visible light or simply light. A typical human eye will respond to wavelengths from about 390 to 700 nm.
from Wikipedia
2017
oct 15
The visible spectrum is the portion of the electromagnetic spectrum that is visible to the human eye. Electromagnetic radiation in this range of wavelengths is called visible light or simply light. A typical human eye will respond to wavelengths from about 390 to 700 nm.[1] In terms of frequency, this corresponds to a band in the vicinity of 430–770 THz.
The spectrum does not, however, contain all the colors that the human eyes and brain can distinguish. Unsaturated colors such as pink, or purplevariations such as magenta, are absent, for example, because they can be made only by a mix of multiple wavelengths. Colors containing only one wavelength are also called pure colors or spectral colors.
Visible wavelengths pass through the "optical window", the region of the electromagnetic spectrum that allows wavelengths to pass largely unattenuated through the Earth's atmosphere. An example of this phenomenon is that clean air scatters blue light more than red wavelengths, and so the midday sky appears blue. The optical window is also referred to as the "visible window" because it overlaps the human visible response spectrum. The near infrared (NIR) window lies just out of the human vision, as well as the Medium Wavelength IR (MWIR) window, and the Long Wavelength or Far Infrared (LWIR or FIR) window, although other animals may experience them.
The functions of taste as amount of taste
Taste sensitivity depends on the number of taste receptors on taste buds and the number of taste buds on the tongue. To measure this, scientists use a wafer that contains a drop of a chemical called 6-n-propylthiouracil, or PROP, which has a nasty bitter taste.
tastes are:
Taste sensitivity depends on the number of taste receptors on taste buds and the number of taste buds on the tongue. To measure this, scientists use a wafer that contains a drop of a chemical called 6-n-propylthiouracil, or PROP, which has a nasty bitter taste.
tastes are:
- Sweetness.
- Sourness.
- Saltiness.
- Bitterness.
- Umami.
- Pungency (also spiciness or hotness)
- Coolness.
- Numbness.
What defines the range of smells ?.
How do we measure touch?
Our sense of touch is controlled by a huge network of nerve endings and touchreceptors in the skin known as the somatosensory system. This system is responsible for all the sensations we feel - cold, hot, smooth, rough, pressure, tickle, itch, pain, vibrations, and more.
Touch receptors are the nerve cells that tell your brain about tactile sensations. There are several types of touch receptors, but they can be divded into two groups (1) mechanoreceptors that tell you about sensations of pushing, pulling or movement, (2) thermoreceptors that tell you about sensations of temperature.
As an artist i can translate what the homunculus is trying to say. "Yes, that all OK!, but where are we ?".
as regards the need for the memory and how it is created in the brain as many do soul searching
on their own bodies to find the ancient memories.
Much of this has ancient values of the memory of the world.
Our sense of touch is controlled by a huge network of nerve endings and touchreceptors in the skin known as the somatosensory system. This system is responsible for all the sensations we feel - cold, hot, smooth, rough, pressure, tickle, itch, pain, vibrations, and more.
Touch receptors are the nerve cells that tell your brain about tactile sensations. There are several types of touch receptors, but they can be divded into two groups (1) mechanoreceptors that tell you about sensations of pushing, pulling or movement, (2) thermoreceptors that tell you about sensations of temperature.
As an artist i can translate what the homunculus is trying to say. "Yes, that all OK!, but where are we ?".
as regards the need for the memory and how it is created in the brain as many do soul searching
on their own bodies to find the ancient memories.
Much of this has ancient values of the memory of the world.
Because we can smell so many various odors, this high number may connect to the central nervous system by way of the cerebellum where they are connected to each of the other senses as what makes memory BITS that are stored in the cerebellum that acts like the scale of low to high or all of them.
the use of the MAYAN FACTOR as the "galactic beam alignment of 2012" defines each age throughout human memory by the basic use of position and energy value. So that this defines the memory of the whole world in a basic linear sequence that may be the way that MAYANS remembered their experiences and may be a message of memory to other beings or aliens of our basic meaning.
Now that we know the five senses we may also know what we remember. Basically we remember anything that we have sensed or will sense.
from
Wikipedia
2017
oct 15
Memory is the faculty of the mind by which information is encoded, stored, and retrieved.
Memory is vital to experiences and related to limbic systems, it is the retention of information over time for the purpose of influencing future action.[1] If we could not remember past events, we could not learn or develop language, relationships, nor personal identity (Eysenck, 2012).
Often memory is understood as an informational processing system with explicit and implicit functioning that is made up of a sensory processor, short-term (or working) memory, and long-term memory (Baddely, 2007).[better source needed] The sensory processor allows information from the outside world to be sensed in the form of chemical and physical stimuli and attended to with various levels of focus and intent. Working memory serves as an encoding and retrieval processor. Information in the form of stimuli is encoded in accordance with explicit or implicit functions by the working memory processor. The working memory also retrieves information from previously stored material. Finally, the function of long-term memory is to store data through various categorical models or systems (Baddely, 2007).[better source needed]
Explicit and implicit functions of memory are also known as declarative and non-declarative systems (Squire, 2009).[better source needed]These systems involve the purposeful intention of memory retrieval and storage, or lack thereof. Declarative, or explicit, memory is the conscious storage and recollection of data (Graf & Schacter, 1985). Under declarative memory resides semantic and episodic memory. Semantic memory refers to memory that is encoded with specific meaning (Eysenck, 2012), while episodic memory refers to information that is encoded along a spatial and temporal plane (Schacter & Addis, 2007; Szpunar, 2010). Declarative memory is usually the primary process thought of when referencing memory (Eysenck, 2012).[better source needed]
from
Wikipedia
2017
oct 15
Memory is the faculty of the mind by which information is encoded, stored, and retrieved.
Memory is vital to experiences and related to limbic systems, it is the retention of information over time for the purpose of influencing future action.[1] If we could not remember past events, we could not learn or develop language, relationships, nor personal identity (Eysenck, 2012).
Often memory is understood as an informational processing system with explicit and implicit functioning that is made up of a sensory processor, short-term (or working) memory, and long-term memory (Baddely, 2007).[better source needed] The sensory processor allows information from the outside world to be sensed in the form of chemical and physical stimuli and attended to with various levels of focus and intent. Working memory serves as an encoding and retrieval processor. Information in the form of stimuli is encoded in accordance with explicit or implicit functions by the working memory processor. The working memory also retrieves information from previously stored material. Finally, the function of long-term memory is to store data through various categorical models or systems (Baddely, 2007).[better source needed]
Explicit and implicit functions of memory are also known as declarative and non-declarative systems (Squire, 2009).[better source needed]These systems involve the purposeful intention of memory retrieval and storage, or lack thereof. Declarative, or explicit, memory is the conscious storage and recollection of data (Graf & Schacter, 1985). Under declarative memory resides semantic and episodic memory. Semantic memory refers to memory that is encoded with specific meaning (Eysenck, 2012), while episodic memory refers to information that is encoded along a spatial and temporal plane (Schacter & Addis, 2007; Szpunar, 2010). Declarative memory is usually the primary process thought of when referencing memory (Eysenck, 2012).[better source needed]