F.A.Q.
General Questions
Absolutely, taking a nap is a very health habbit if not over done.
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- Sixty percent of the human brain is made of fat. Not only does that make it the fattiest organ in the human body, but these fatty acids are crucial for your brain’s performance. Make sure you’re fueling it appropriately with healthy, brain-boosting nutrients.
- Your brain isn’t fully formed until age 25. Brain development begins from the back of the brain and works its way to the front. Therefore, your frontal lobes, which control planning and reasoning, are the last to strengthen and structure connections.
- Your brain’s storage capacity is considered virtually unlimited. Research suggests the human brain consists of about 86 billion neurons. Each neuron forms connections to other neurons, which could add up to 1 quadrillion (1,000 trillion) connections. Over time, these neurons can combine, increasing storage capacity. However, in Alzheimer’s disease, for example, many neurons can become damaged and stop working, particularly affecting memory.
- Brain information travels up to an impressive 268 miles per hour. When a neuron is stimulated, it generates an electrical impulse that travels from cell to cell. A disruption in this regular processing can cause an epileptic seizure.
- On average, your spinal cord stops growing at 4 years old. Your spinal cord, which consists of a bundle of nervous tissue and support cells, is responsible for sending messages from your brain throughout your body.
- The spinal cord is the main source of communication between the body and the brain. ALS, or amyotrophic lateral sclerosis, causes the neurons in the brain and spinal cord to die, impacting controlled muscle movement. Another disease that affects both the brain and the spinal cord is multiple sclerosis (MS). In MS, the immune system attacks the protective layer that covers nerve fibers, causing communication problems between the brain and the body.
- It’s a myth that you only use 10 percent of your brain. You actually use all of it. (Yes, even when you are sleeping.) Neurologists confirm that your brain is always active.
- The human brain weighs 3 pounds. (That’s about as much as a half-gallon of milk.) However, size does not always imply intelligence. Men tend to have larger brains than women.
- A brain freeze is really a sphenopalatine ganglioneuralgia. This pain occurs when cold hits the receptors in the outer covering of the brain, called the meninges. The cold creates a dilation and contraction of arteries, causing a rapid-onset headache.
- A piece of brain tissue the size of a grain of sand contains 100,000 neurons and 1 billion synapses. However, damage to neurons can have great impact. During a stroke, for example, blood is not able to get oxygen to the brain. As a result, brain cells can die, and abilities in that particular area of the brain can be lost. Similarly, Parkinson’s diseaseoccurs when the cells of a part of your brain called the substantia nigra start to die.
- The human brain can generate about 23 watts of power (enough to power a lightbulb). All that power calls for some much-needed rest. Adequate sleep helps maintain the pathways in your brain. Additionally, sleep deprivation can increase the build-up of a protein in your brain that is linked to Alzheimer’s disease.
Human Brain
Have you heard people say that they tend to be right-brained or left-brained?
According to the theory of left-brain or right-brain dominance, each side of the brain controls different types of thinking. For example, a person who is “left-brained” is often said to be more logical and analytical while a person who is “right-brained” is more creative and intuitive.
It was psycho-biologist Dr. Roger Sperry, winner of the Nobel Prize in Physiology or Medicine 1981, who discovered that the human brain has specialised functions on the right and left, and that the two sides can operate the body almost independently. Today, neuroscientists have confirmed that the two sides of the brain work together to perform a wide variety of tasks.
The Neurons
Two other1906 Nobel Prize winning scientists in Physiology and Medicine, Golgi and Cajal, discovered that the nervous system and brain are mainly built up of nerve cells called Neurons. Neurons are specialised to transmit information throughout the body and are responsible for different tasks.
The human brain has more than hundred billion neurons which are connected to each other through an infinitely complex network of nerve processes. The message from one nerve cell to another is transmitted through different chemical transmitters and the signal transduction takes place in special points of contact, called synapses. A nerve cell can have thousands of such contacts points with other nerve cells. The human brain has trillions of synapses forming a complex and flexible network that allows us to feel, behave, and think.
Science suggests that new synaptic connections are created in the brain every time you form a memory of any activity, audio, visual, smell, taste or touch. Today, most experts believe that memory creation is associated with the strengthening of existing connections or the growth of new connections between neurons.
People who engage in mentally stimulating activities are less likely to develop dementia and people with higher educational statuses tend to have more synaptic connections in the brain.
INTER BRAIN
The Interbrain is the smallest region and most important part of the brain that connects both left and right brain functions. To use the brain’s full potential, it is necessary to activate the Interbrain.
While it was acknowledged that the Interbrain functions as a higher center of the autonomous nervous system, it was Walter Rudolf Hess, Nobel Prize winner in Physiology or Medicine in 1949 who mapped out these functions in detail.
Interbrain activation promotes whole brain development which contributes to an individual’s overall intellectual, emotional and thereby, social development.
Impact of Interbrain
The Interbrain is in charge of controlling the entire human organism including the viscera. It acts as a control tower of consciousness and is equipped with highly advanced intelligence. If a person develops his Interbrain, he will acquire a memory that will never let him forget whatever he has seen or heard once.
Whole Brain Stimulation
To use the brain’s full potential, it is necessary to activate the Interbrain by stimulating a hormonal discharge. For this, it is necessary to send special vibrations or sound waves to the pituitary gland which is responsible for regulating hormone secretions.
Sound waves have been found to be very effective as they enable the neurons to fire up. Experts have been emphasising on the importance of sound waves and brain entrainment since a long time.
A stimulated interbrain would be able to process information much faster and efficiently.
Brainwaves
Neurons communicate electrically. The combination of millions of neurons sending signals at once creates an enormous amount of electrical activity in the brain. This can be detected using sensitive medical equipment (such as an EEG). The combination of electrical activity of the brain is commonly called a Brainwave pattern, because of its cyclic, ‘wave-like’ nature. These brainwaves are known as:
Beta emitted when we are consciously alert, or feel agitated, tense, afraid; frequencies range from 13 to 60 pulses per second in the Hertz scale
Alpha when we are in a state of physical and mental relaxation, although aware of what is happening around us; its frequency is around 7 to 13 pulses per second
Theta is a state of somnolence with reduced consciousness; more or less 4 to 7 pulses
Delta when there is unconsciousness, deep sleep or catalepsy; emitting between 0.1 and 4 cycles per second
Grandfather clocks placed in the same room will tend to swing their pendulums in sync with the dominant or largest pendulum. Crowds at a concert will tend to clap in unison to the same beats. These are all examples of entrainment — a powerful and universal natural phenomenon that creates rhythmic alignment.
Music with fast beats speed up our brain waves. Similarly, music with slow beats slows them down. When this happens, the brain responds by synchronizing its own electric cycles to the same rhythm. Touch, photic and auditory stimulation are all capable of affecting brain wave activity. This Frequency Following Response (FFR) effect of brain waves in response to rhythmic stimulation is called “Brain Wave Entrainment” (BWE).
Brain Barn Edu facilitates brain entrainment using sessions of music with embedded vibrations, theta and alpha progressive meditation which lead to Whole Brain Activation.
We have created various sound wave vibrations which have the ability to guide the natural brain wave pattern to vibrate at required frequencies, there by allowing neurons to fire and create new neural pathways across different sections of the brain.
Neural pathways are responsible for concentration, comprehension, reading and writing speed, retention and recall.
Firing up of multiple new neural pathways prepares the brain for an increased processing capacity and higher learning capabilities.
Post the awakening of the interbrain through sound waves entrainment, a simple daily practise session of 10-15 mins must be continued for enhancing the capabilities and whole brain effectiveness.