Human Brain Great Forever

The human brain is the greatest absorption of complexity that is in the physical universe. It is a communication center such as a video camera and storage library. The more the brain is used then the better it retains knowledge. One ongoing area of research includes the functions of the left and right hemispheres. These halves are mirror images and are joined by millions of nerve fibers which are called corpus callosum. The left side of a body is mainly controlled by the right brain and right side of the body controlled by the left brain hemisphere. Each hemisphere has a duty to control language, problem solving, visual controls, and artistic ideas. Each is a backup for the other just in case one was to get injured. The brain continues to evolve in the right hemisphere where creativity generates while the left focuses on logical reasoning.The brain provides the definitive design which challenges evolution.

The brain is able to perform very remarkable tasks. Over the last couple of decades artificial intelligence has tried to mimic the human brain. Despite the incredible speed of a computer and their memory, computers still struggle to imitate the brain. Artificial intelligence (AI) is a branch of computer science that strains to narrow the gap. There have been ups and downs in the technology. Unfortunately there is no way to mimic over 20 billion neurons, but there are now several things that can replicate it with less firepower. When breaking down the brain into simple terms it is just series of inputs and outputs just like a computer. AI has a series of binary form and mathematical algorithms that can now replicate intelligence. AI has made the way into everyday products which most people do not even realize. A recent example is the ability for cameras to be able to detect faces in a shot and focus on that face. A fairly recent remarkable feature is the iphone 4s with Siri technology. This application allows a user with daily tasks, voice commands and intelligent responses. One might forget that he or she is just talking to a computer. Technologies such as these are evolving every year and one day might crack the duplication of the human brain.

Scientists have started to imagine the possibilities: They could invent new forms of industrial machinery, create fully autonomous thinking cars, devise new kinds of home appliances. A new project in Europe hopes to create a computer brain just that powerful in the next ten years -- and it's incredibly well-funded. computers that fast simply haven't been invented yet.The Human Brain Project kicks off  7 Oct 2013 at a conference in Switzerland. Over the next 10 years, about 80 science institutions and at least 20 government entities in Europe will figure out how to make that computer brain. The project will cost about $1.6B in U.S. dollars.

Though there is much progression in technology just over the horizon the advancement of machines still have limitations and hindrances.

Let us see how the brain and the computer are similar and different

Throughout history, people have compared the brain to different inventions. In the past, the brain has been said to be like a water clock and a telephone switchboard. These days, the favorite invention that the brain is compared to is a computer. Some people use this comparison to say that the computer is better than the brain; some people say that the comparison shows that the brain is better than the computer. Perhaps, it is best to say that the brain is better at doing some jobs and the computer is better at doing other jobs.

Similarity

ü       Both use electrical sig nals to send messages.
ü      Both transmit information.
ü      Both have a memory that can grow.
ü      Both can adapt and learn.

Difference
 §   The brain uses chemicals to transmit information; the computer uses electricity. Even though            electrical signals travel at high speeds in the nervous system, they travel even faster through the  wires in a computer.

•        computer uses switches that are either on or off ("binary"). In a way, neurons in the brain are either on or off by either firing an action potential or not firing an action potential. However, neurons are more than just on or off because the "excitability" of a neuron is always changing. This is because a neuron is constantly getting information from other cells through synaptic contacts. Information traveling across a synapse does NOT always result in a action potential. Rather, this information alters the chance that an action potential will be produced by raising or lowering the threshold of the neuron.
• §        Computer memory grows by adding computer chips. Memories in the brain grow by stronger synaptic connections.

• §         It is much easier and faster for the brain to learn new things. Yet, the computer can do many complex tasks at the same time ("multitasking") that are difficult for the brain. For example, try counting backwards and multiplying 2 numbers at the same time. However, the brain also does some multitasking using the autonomic nervous system. For example, the brain controls breathing, heart rate and blood pressure at the same time it performs a mental task.

  §    §      The human brain has weighed in at about 3 pounds for about the last 100,000 years. Computers have evolved much faster than the human brain. Computers have been around for only a few decades, yet rapid technological advancements have made computers faster, smaller and more powerful.

  §    §     The brain needs nutrients like oxygen and sugar for power; the computer needs electricity to keep working.

  §    §     It is easier to fix a computer - just get new parts. There are no new or used parts for the brain. However, some work is being done with transplantation of nerve cells for certain neurological disorders such as Parkinson's disease. Both a computer and a brain can get "sick" - a computer can get a "virus" and there are many diseases that affect the brain. The brain has "built-in back up systems" in some cases. If one pathway in the brain is damaged, there is often another pathway that will take over this function of the damaged pathway.

  §     The brain is always changing and being modified. There is no "off" for the brain - even when an animal is sleeping, its brain is still active and working. The computer only changes when new hardware or software is added or something is saved in memory. There IS an "off" for a computer. When the power to a computer is turned off, signals are not transmitted.

  §    §    The computer is faster at doing logical things and computations. However, the brain is better at interpreting the outside world and coming up with new ideas. The brain is capable of imagination.

  §    §    Scientists understand how computers work. There are thousands of neuroscientists studying the brain. Nevertheless, there is still much more to learn about the brain. "There is more we do NOT know about the brain, than what we do know about the brain".

Natural Satellite

The Moon is Earth's only natural satellite and he fifth largest satellite in the Solar System. It is the largest natural satellite of a planet in the Solar System relative to the size of its primary, a quarter the diameter of Earth and 1⁄81 its mass . The Moon is the second densest satellite after Io, a satellite of Jupiter.

 The Moon is thought to have formed nearly 4.5 billion years ago, not long after the Earth. Although there have been several hypotheses for its origin in the past, the current most widely accepted explanation is that the Moon formed from the debris left over after a giant impact between Earth and a Mars-sized body. The Moon is the only celestial body other than Earth on which humans have set foot.

 sometime in the early stage of the Solar System–about four and a half billion years ago–a large proto-Earth collided with a Mars-sized body named “Theia,” causing a huge cloud of material from both bodies to fly out into space. Some of the material remained in the Earth’s orbit and coalesced into the Moon. It’s a fascinating hypothesis.

Around the Solar System, multiple moons are the rule. Jupiter has 63 natural satellites, even Mars has two asteroid-like moons.

Does the Earth have any other moons?

Could Earth have more than one?

Officially, the answer is no. The Earth has a single moon. But Today only. It’s possible Earth had more than one moon in the past, millions or even billions of years ago.For example, Mars has two Moons, but not for long. It’s also possible that the Earth might capture a Moon in the future.

How many moons are there in the Solar System? according NASA’s  information. Mercury and Venus-0, Earth-1,Mars-2,Jupiter-63,Saturn-60,

Uranus-27,Neptune-13.The number of known moos has been steadily growing with the improvement of technology. The number has nearly doubled so.

Some of the moons in the solar system are known to have volcanoes, cryptovolcanos, and tectonic activity. Some are thought to have sub-surface oceans. Io is the most volcanically active body that scientists know of. At least four moons still have active tectonic plates. A few have observed atmospheres containing oxygen. Europa, among others is thought to be capable of supporting life as we know it, although this is unproven as yet. Iron metallic cores are not uncommon along with moons that have their own magnetic fields.

Ganymede is the largest moon in the solar system and our Moon is the fifth largest.

 It is in synchronous rotation with Earth, always showing the same face; the near side is marked with dark volcanic maria among the bright ancient crustal highlands and prominent impact craters. It is the brightest object in the sky after the Sun, although its surface is actually very dark, with a similar reflectance to coal. Its prominence in the sky and its regular cycle of phases have since ancient times made the Moon an important cultural influence on language, calendars, art and mythology. The Moon's gravitational influence produces the ocean tides and the minute lengthening of the day. The Moon's current orbital distance, about thirty times the diameter of the Earth, causes it to appear almost the same size in the sky as the Sun, allowing it to cover the Sun nearly precisely in total solar eclipses.

The Moon is thought to have formed nearly 4.5 billion years ago, not long after the Earth. Although there have been several hypotheses for its origin in the past, the current most widely accepted explanation is that the Moon formed from the debris left over after a giant impact between Earth and a Mars-sized body. The Moon is the only celestial body other than Earth on which humans have set foot.

 The Moon is the only celestial body on which humans have landed. While the Soviet Union's Luna programme was the first to reach the Moon with unmanned spacecraft in 1959, the United States' NASA Apollo program achieved the only manned missions to date, beginning with the first manned lunar orbiting mission by Apollo 8 in 1968, and six manned lunar landings between 1969 and 1972—the first being Apollo 11. These missions returned over 380 kg of lunar rocks, which have been used to develop a detailed geological understanding of the Moon's origins , the formation of its internal structure, and its subsequent history.

After the Apollo 17 mission in 1972, the Moon has been visited only by unmanned spacecraft, notably by the final Soviet Lunokhod rover. Since 2004, Japan, China, India, the United States, and the European Space Agency have each sent lunar orbiters. These spacecraft have contributed to confirming the discovery of lunar water ice in permanently shadowed craters at the poles and bound into the lunar regolith. Future manned missions to the Moon have been planned, including government as well as privately funded efforts. The Moon remains, under the Outer Space Treaty, free to all nations to explore for peaceful purposes.

some 30–50 million years after the origin of the Solar System.These include the fission of the Moon from the Earth's crust through, which would require too great an initial spin of the Earth, the gravitational capture of a pre-formed Moon, which would require an unfeasibly extended atmosphere to the energy of the passing Moon, and the co-formation of the Earth and the Moon together in the primordial accretion disksome 30–50 million years after the origin of the Solar System.

These include the fission of the Moon from the Earth's crust through centrifugal forces, which would require too great an initial spin of the Earth, the gravitational capture of a pre-formed Moon, which would require an unfeasibly extended atmosphere of the Earth to dissipate the energy of the passing Moon, and the co-formation of the Earth and the Moon together in the primordial accretion disk, which does not explain the depletion of metallic iron in the Moon. These hypotheses also cannot account for the high angular momentum of the Earth–Moon system, which does not explain the depletion of metallic iron in the Moon. These hypotheses also cannot account for the high angular momentum of the Earth–Moon system.

The Moon makes a complete orbit around the Earth with respect to the fixed stars about once every 27.3 days (its sidereal period). However, since the Earth is moving in its orbit about the Sun at the same time, it takes slightly longer for the Moon to show the same phase to Earth, which is about 29.5 days (its synodic period).

The Moon is a differentiated body: it has a geochemically distinct crust, mantle, and core. The moon has a solid iron-rich inner core with a radius of 240 kilometers and a fluid outer core primarily made of liquid iron with a radius of roughly 300 kilometers. Around the core is a partially molten boundary layer with a radius of about 500 kilometers. This structure is thought to have developed through the fractional crystallization of a global magma ocean shortly after the Moon's formation 4.5 billion years ago.

which is more iron rich than that of Earth. Geophysical techniques suggest that the crust is on average ~50 km thick.

One-half of the Moon appears to be illuminated by direct sunlight. The fraction of the Moon's disk that is illuminated is increasing. The right half of the Moon appears lighted and the left side of the Moon appears dark.  During the time between the New Moon and the First Quarter Moon, the part of the Moon that appears lighted gets larger and larger every day, and will continue to grow until the Full Moon.

 Moon's gravity is 1/6 of the Earth's, if an 80 kg person went to the moon his weight is 13.3 kg only.

photos:red moon:

Red and orange tinted Moon, as seen from Earth during a lunar eclipse, where the Earth comes between the Moon and Sun.

The Moon is a differentiated body: it has a geochemically distinct crust, mantle, and core. The Moon has a solid iron-rich inner core with a radius of 240 kilometers and a fluid outer core primarily made of liquid iron with a radius of roughly 300 kilometers. Around the core is a partially molten boundary layer with a radius of about 500 kilometers.

The Moon has an atmosphere so tenuous as to be nearly vacuum, with a total mass of less than 10 metric tons.

Eclipses can only occur when the Sun, Earth, and Moon are all in a straight line.

The Moon gives off no light of its own but reflects sunlight from its rocky surface. the moon shines is that it reflects the light of the Sun. What we call moonshine is actually sunshine  reflected by the Moon.

Another one is earthshine, meaning sunlight reflected by the Earth. We have only one way to see it. That occurs because some of the earthshine falls on the Moon and is reflected back to Earth again. By this dim light we can sometimes see the outline of the whole moon behind the crescent of a new moon.