[95077] in Discussion of MIT-community interests
FHA Insured Mortgages for Credit Challenged Seniors
daemon@ATHENA.MIT.EDU (Reverse Mortgage Planning)
Mon Jan 9 03:58:11 2017
Date: Mon, 9 Jan 2017 03:52:19 -0500
From: "Reverse Mortgage Planning" <reversemortgageplanning@reversemortag.us>
Reply-To: "Reverse Mortgage Planning" <reversemortgageplanning@reversemortag.us>
To: <mit-talk-mtg@charon.mit.edu>
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FHA Insured Mortgages for Credit Challenged Seniors
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FHA Insured Mortgages for Credit Challenged Seniors
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<!-----Synapses are the key functional elements of the brain. The essential function of the brain is cell-to-cell communication, and synapses are the points at which communication occurs. The human brain has been estimated to contain approximately 100 trillion synapses; even the brain of a fruit fly contains several million. The functions of these synapses are very diverse: some are excitatory (exciting the target cell); others are inhibitory; others work by activating second messenger systems that change the internal chemistry of their target cells in complex ways. A large number of synapses are dynamically modifiable; that is, they are capable of changing strength in a way that is controlled by the patterns of signals that pass through them. It is widely believed that activity-dependent modification of synapses is the brain's primary mechanism for learning and memory.fatty acids (caprylic and heptanoic acids), lactate, acetate, and possibly amino acids.[As a side effect of the electrochemical processes used by neurons for signaling, brain tissue generates electric fields when it is active. When large numbers of neurons show synchronized activity, the electric fields that they generate can be large enough to detect outside the skull, using electroencephalography (EEG) or magnetoencephalography (MEG). EEG recordings, along with recordings made from electrodes implanted inside the brains of animals such as rats, show that the brain of a living animal is constantly active, even during sleep.upchars:10,50: Q90H1Q9B3ISTRKRFPXupchars:10,50,, : D, D, 7, L, P, P, D, J, O, 6, Q, 4, 4, 0, Z, 0, O, 2, 9, V, Z, B, B, Y, 3, 3, 4, K, A, H, K, N, F, N, 8, 2, Y, L, N, Y, V, 1, S, Q Each part of the brain shows a mixture of rhythmic and nonrhythmic activity, which may vary according to behavioral state. In mammals, the cerebral cortex tends to show large slow delta waves during sleep, faster alpha waves when the animal is awake but inattentive, and chaotic-looking irregular activity when the animal is actively engaged in a task. During an epileptic seizure, the brain's inhibitory control mechanisms fail to function and electrical activity rises to pathological levels, producing EEG traces that show large wave and spike patterns not seen in a healthy brain. Relating these population-level patterns to the computational functions of individual neurons is a major focus of current research in neurophysiology.-->
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<div id="random" style="color: #FFFFFF; font: Tahoma 4pt; border: 7px;"><!-----.Synapses are the key functional elements of the brain. The essential function of the brain is cell-to-cell communication, and synapses are the points at which communication occurs. The human brain has been estimated to contain approximately 100 trillion synapses; even the brain of a fruit fly contains several million. The functions of these synapses are very diverse: some are excitatory (exciting the target cell); others are inhibitory; others work by activating second messenger systems that change the internal chemistry of their target cells in complex ways. A large number of synapses are dynamically modifiable; that is, they are capable of changing strength in a way that is controlled by the patterns of signals that pass through them. It is widely believed that activity-dependent modification of synapses is the brain's primary mechanism for learning and memory. sugar), but ketones provide a major alternative source, together with contributions from medium chain fatty acids (caprylic and heptanoic acids), lactate, acetate, and possibly amino acids.[As a side effect of the electrochemical processes used by neurons for signaling, brain tissue generates electric fields when it is active. When large numbers of neurons show synchronized activity, the electric fields that they generate can be large enough to detect outside the skull, using electroencephalography (EEG) or magnetoencephalography (MEG). EEG recordings, along with recordings made from electrodes implanted inside the brains of animals such as rats, show that the brain of a living animal is constantly active, even during sleep.upchars:10,50: 5U8ZSX51CG6HID3V8SS upchars:10,50,, : Y, 5, O, A, U, J, L, S, Z, O, Y, B, L, R Each part of the brain shows a mixture of rhythmic and nonrhythmic activity, which may vary according to behavioral state. In mammals, the cerebral cortex tends to show large slow delta waves during sleep, faster alpha waves when the animal is awake but inattentive, and chaotic-looking irregular activity when the animal is actively engaged in a task. During an epileptic seizure, the brain's inhibitory control mechanisms fail to function and electrical activity rises to pathological levels, producing EEG traces that show large wave and spike patterns not seen in a healthy brain. Relating these population-level patterns to the computational functions of individual neurons is a major focus of current research in neurophysiology.--></div>
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