10 Perfect Design On Earth

10 Perfect Design On Earth, Evidence Perfection Creator
One of the recent discoveries in the world of science that became a byword among scientists is what is called the anthropic principle.

This principle reveals that every detail contained in the universe has been designed with perfect precision to make human life possible. A small example of the anthropic principle can be found in the facts relating to the existence of the earth.

In this case, an American astronomer Hugh Ross in his book entitled 'The Fingerprint of God, Recent Scientific Discoveries Reveal the Unmistakable Identitiy of The Creator' has made a list of his own as follows.

1. The distance of the earth to the sun
Distance of the sun to the earth is 149 669 000 kilometers (or 93 million miles). This distance is known as the astronomical unit and the usual rounded (for simplification count) to 148 million km.

Compared with the Earth, the Sun's diameter is approximately 112 time. Tensile sun is roughly 30 times the force of gravity. Sunlight take time 8 minutes to reach the Earth.

If further:
Planet Earth would be too cold for a stable water cycle.
If closer:
Planet Earth will be too hot for a stable water cycle

2. The gravity at the earth's surface

Surface gravity of an astronomical objects (planets, stars, etc.) is the acceleration of gravity force on the object surface. Surface gravity depends on the mass and radius of the object. Often the surface gravity is expressed as a ratio with the applicable provisions of the earth.

If stronger:
Earth's atmosphere would retain too much toxic gases (ammonia and methane)
If weaker:
Earth's atmosphere will be too thin because much loss of air

3. The period of rotation of the earth

Earth's rotation refers to the movement of the planet rotates on its axis and motion in its orbit around the sun.

If longer:
The difference in temperature during the day and night too big
If faster:
Atmospheric wind speed is too high

4. Albedo

Albedo is a quantity that describes the ratio between the sunlight that arrives at the Earth's surface and is reflected back into space by a change in wavelength (outgoing longwave radiation).

Wavelength difference between coming and reflected can be attributed to how much solar energy is absorbed by the earth's surface.

If greater:
Runaway ice age would occur
If smaller:
Runaway greenhouse effect will occur

5. Activities earthquake

An earthquake is a vibration or shock that occurs on the surface of the earth. Normal earthquakes caused by the movement of the earth's crust (tectonic plates). The word earthquake is also used to indicate the origin of the earthquake occurrence.

Our Earth is solid though, always moving, and earthquakes occur when the pressure that occurs because the movement was already too large to be held down.

If greater:
Too many living beings perish
If smaller:
Seabed foodstuffs will not be recycled to the mainland through tectonic uplift

6. The thickness of the crust

The crust is the outermost layer of the earth is divided into two categories, namely the oceanic crust and continental crust. Oceanic crust has a thickness of about 5-10 km, whereas the continental crust has a thickness of about 20-70 km.

The main constituent of the ocean crust is basaltic rock, rock while the main constituent of the continental crust is granite, which is not as dense basalt rock. The crust and the mantle portion of the lithosphere form layers with a total thickness of approximately 80 km.

If thicker:
Too many berpidah oxygen from the atmosphere to the Earth's crust
If thinner:
Volcanic and tectonic activity would be too great

7. The magnetic field of the earth

Earth's magnetosphere is a region in space whose shape is determined by the extent of the internal magnetic field of the earth, the solar wind plasma and interplanetary magnetic field.

In the magnetosphere, a mixture of ions and free electrons either from the solar wind and the ionosphere of the earth is limited by the magnetic force and electricity stronger than gravity and collisions.

If stronger:
Electromagnetic storms would be too damaging
If weaker:
The lack of protection from harmful radiation coming from outer space

8. Gravitational interactions with the moon

Months were drawn in by the force of gravity does not fall to the earth caused by the centrifugal force arising from the orbit of the moon around the earth.

The magnitude of the centrifugal force moon is slightly larger than the gravitational attractive force between the earth and the moon. This causes the moon farther away from the Earth at about 3,8cm / year.

If greater:
Tidal effects on the oceans, the atmosphere and rotational period would be damaging
If smaller:
Orbital obliquity changes would cause climatic instabilities

9. Levels of carbon dioxide and water vapor in the atmosphere

Earth's atmosphere consists of nitrogen (78.17%) and oxygen (20.97%), with a bit of argon (0.9%), carbon dioxide (variable, but approximately 0.0357%), water vapor, and other gases.

The atmosphere protects life on Earth by absorbing ultraviolet radiation from the sun and reducing temperature extremes between day and night.

75% of the atmosphere is in 11 km from the planet's surface. The atmosphere does not have a direct limit tapat borders, but rather thins gradually by increasing the height, there is no definite boundary between the atmosphere and outer space.

If greater:
Runaway greenhouse effect will occur
If smaller:
The greenhouse effect is not adequate

10. Levels of ozone in the atmosphere

Ozone consists of three oxygen molecules and highly dangerous to human health. Naturally, the ozone generated by ultraviolet light mixing with the Earth's atmosphere and form an ozone layer at an altitude of 50 kilometers.

Ozone is concentrated in the lower stratosphere between 15 and 30 km above the earth's surface, known as the 'ozone layer'.

Ozone is produced by various chemical compounds, but the main mechanism of income and displacement in the atmosphere is the absorption of ultraviolet light (UV) from the sun.

If greater:
Earth's surface temperature is too low
If smaller:
Earth's surface temperature is too high, too much ultraviolet radiation

The above list is just a few examples of the many abundant data about the existence of the anthropic principle.

However, even this bit is enough to destroy the myth that is believed materialist scientists, namely that the existence of the earth and found her life happened by chance through a series of random events without planning.

Anyone who studies these data will not fail to come to the conclusion that the earth is a place that has been designed with a level of complexity that is unimaginable and with a perfect fit for the continuation of life in it.

source: 10 Perfect Design on Earth

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8 Ways the 'Internet of Things' Will Impact Your Everyday Life

Bigger than the Industrial Revolution.

This is how some analysts talk about the budding "Internet of Things" and the innovation that will come as a result. We will start to see a plethora of "dumb" objects become connected, sending signals to each other and alerts to our phones, and creating mounds of "little data" on all of us that will make marketers salivate. The Internet of Things took center stage at CES, with connected tennis rackets and crockpots capturing early headlines.

Some of the largest tech behemoths have recently joined together to make the Internet of Things a closer reality in all of our homes, cars and lives. The AllSeen Alliance is seeing companies such as Cisco, Panasonic and Sharp pledging to make their pipelines of new appliances and devices compatible with a networking system so machines can start interacting. By 2017, we will see smart objects hitting shelves on broad scale and we will start reducing waste, costs and inconvenience while increasing efficiency and safety.

Here are the changes coming to our everyday lives -- some obvious, other perhaps less obvious -- that I am most excited about in the Internet of Things:

Tuning your car: As more machines speak to each other and systems integrate, you will no longer miss an oil change. Your truly "smart" car will preemptively reach out to your mechanic when it is time for the annual tune up or your tire pressure is running low, and by cross referencing your calendar, appointment suggestions will be delivered to you to confirm a time with one click.

Monitoring your health: When a prescription is running low, an appointment will be made with your physician through connected RX bottles. Doctors will be kept informed with how often and when their patients are taking their medicine and those with ongoing health issues will be able to have things such as blood pressure and sugar levels monitored remotely.

Energy consumption: High-energy consumption household appliances will adjust based on dynamic price signals to lower your electric bill. Thermostats and lighting will learn your habits to create the optimal setting based on your daily life, such as turning to your ideal temperature just before you arrive home. These gadgets will also sense when no one is in the house and turn off automatically to reduce wastes and costs.

Driving and traffic jams: Driving will get a lot safer. Traffic lights will be able to adjust to real-time traffic conditions such as when an emergency vehicle is approaching. Road sensors will make changes to the speed limit based on weather and accidents, while also communicating directly to car dashboards about unsafe conditions (e.g. Slow down. The turn in a quarter mile is icey).

Grocery lists: Smart refrigerators will sense when you are running low on staples such as eggs or milk and will automatically populate your grocery list. Stores will push reminders to add items to your list when it predicts you about to run out based on your historical purchasing behavior and average buying trends. When you are walking through the store, reminders will get pushed to you to ensure you never have to make that dreaded second trip.

Our morning alarm: The traffic on your route to work and the weather will soon affect what time your alarm goes off. If there is an accident or road construction on your usual drive, your alarm will go off early and alternate routes will populate in your dashboard. Of course, your coffee machine will be in the loop to make sure you have your cup of joe for the road.

Monitoring your baby: Through their smartphones, parents will monitor their baby's breathing, temperature and activity. Babies will don connected onesies that will send an alert when there is anything abnormal. Of course, the other babies in your life will also reap the benefits of connectivity. Pet monitoring systems will allow you to monitor their activity and behavior from afar, so you can see how well your potty training is working and how honest your dog walker really is.

What's on your body: Wearable tech has perhaps gotten the most attention in the Internet of Things chatter to date. Many products are now in their second or third generations, offering sleeker designs and more integration with different systems. From monitoring activity during workouts to sleeping patterns to hearing aids, the devices that we "wear" are becoming much more sophisticated, connecting to all of our social media accounts, and tracking much more quality and quantity data.

The budding number of sensors will detect and act on environmental and other contextual factors, such as weather; will be aware of who and how many people are around in its vicinity to change levels of input and output; and adjust to save resources and improve safety.

With the growing number of connected things in our lives, we will all become more in tune with our own data (a la Nike Fuelband) and start to expect more personal interactions with brands and retailers. Marketers will need to establish a trust among consumers and prove that if they give up access to some of their personal data, in return they will get more tailored offers, deals and interactions.

Smartphones will become not only everyone's portal into the Internet of Things ecosystem (look no further than smartphone-controlled light bulbs), but a complete remote control to your life (if it isn't already). Every enterprise needs to take mobile even more seriously and have it as a key point of consideration of future connected efforts.

Source: Internet of Things

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10 Kinds of Clothes Space is often used in the NASA space mission project

Space clothing worn by the astronauts is something that is very vital in the Project Space Flight Mission, which by the help of technology from clothing tersebutlah, the astronauts could survive extreme weather, high pressure, harsh environment, even from a state without air 
Well, here we will see 10 Kinds of Clothes Space is often used in the NASA space mission project: 

1. The Mercury Space Suite 

Mercury Space Suite was first used by NASA in the Mercury project, the first human spaceflight program the United States in 1959-1962. Overall there were six manned flights. 
Suit of clothes designed by Russell Colley who tried to make clothes that are resistant to high pressure. 

But because the design is still a classic of many shortcomings in this outfit. Narrow design makes impaired mobility of the NASA crew. They are hard to bend, bend arms or legs against gravity. But this is understandable, because the technology was not yet advanced 

2. The Gemini Space Suite 

Clothes The Gemini Space Suite is used on NASA's Gemini Project consists of ten manned flights in 1965 and 1966 with the goal of developing techniques to be used in space travel. 
The Gemini Space Suit passed through several generations to suit G3C code and G4C, where clothing is made up of six layers of nylon (the innermost layer of rubber is strong). 
This outfit has been integrated with Helmet and Boot Anti Heat 

3. Apollo / Skylab A7L Suite 

It's still a classic design. In the 1960s and 1970s Apollo and Skylab A7L is spacesuit worn on the Apollo project, as can be seen in the figure below. Spacesuit designed by ILC Dover manufacturer was used between 1968 and 1975. 
3 Flight NASA Skylab project (manned) and also the Apollo Soyuz Test Project-wearing these clothes. And in particular, Apparel Apollo & Skylab A7L resistant by Fire 

4. The Mark III Suite 

For this third astronaut outfit called Mark III Space Suit. Designed by ILC Dover, where clothing is heavier than most other clothes - this is due to the support of a primary system in its own backpack that weighs 15 pounds. However, more mobile than the previous settings, because his backpack tied around the waist. 
The weakness of this outfit is the rough pads that allow relatively limited motion in the shoulders, hips, ankles, and waist. 
But at least this clothing is already a draft for future astronauts Apparel 

5. The Orlan Space Suit 

Clothes The Orlan Space Suite is used for the first time in November 1988, by cosmonaut Musa Manarov of the Mir space station. The Orlan Space Suit eventually continue to be used on the Mir station. in 1997. On February 3, 2006, The Orlan Space Suite updated with sophisticated radio transmitter called SuitSat-1. 
In June, 2009, renewed his suit with radio-telemetry equipment replacement and Portable Life Support System in a backpack which contains a mini-computer. This computer contains the data from the various systems in the spacesuit and give warning of damage. Then outlines and displayed on the LCD screen on the right chest spacesuit it 

6. Advanced Crew Escape Suite 

Clothing Advanced Crew Escape Suite (ACES) is also called "Clothes Pumpkin".Perhaps because the color is like a pumpkin. The ACES clothing hanay used for short-term only. suit of clothes was first used in 1994 and has been in operation until the end of the "Project Shuttle" NASA. 
This outfit also use technology "MAG" or better known as the Maximum Absorption Garment materials that will allow it to hold urine of astronauts. This outfit also comes with paratrooper boots are very heavy with a zipper (not rope) which helps to reduce ankle swelling. 

7. The Sokol Space Suite 

The Sokol Space Suite was first used in 1973 and is still used today for some projects Aerospace. 
This outfit weighs about 10 kg (22 lb) and is described by those who have used it in which they feel comfortable wearing it. Clothing and equipment is equipped with technology that allows users to be able to survive 30 hours in high-pressure environments and 2 hours in a vacuum. They can also be equipped with floats for buoyancy aids if accidentally landed in the water 

8. Constellation Space Suite 

Constellation design was announced by NASA on June 11, 2008, and will be manufactured in Houston, Texas by the Company based Oceaneering International, the first company in addition to David Clark Company, Hamilton Sundstrand and ILC Dover. This outfit will continue projected for Apparel Astronauts in the future. 
This outfit interesting and technology, known as "SUPER MAG" or better known as the Maximum Absorption Garment materials that will allow it to withstand considerable urine of astronauts 
A communications cap, known throughout NASA as "Snoopy cap," is also used by astronauts on these clothes to facilitate better communication through an intercom system, or with Mission Control in Houston. In contrast with the color of hat - a hat before, in this outfit worn brown hat and white striped. 

9. Extravehicular Mobility Unit (EMU) 

Extravehicular Mobility Unit (EMU) is a garment that was first used in 1982 and continuously updated until today (2010). 
This outfit is quite sophisticated now and quite comfortable digunakanberkat system Live Support System (LSS) which combines and supports the lives of astronauts and electrical systems in the arms and gloves that create a warm users. Extravehicular Mobility Unit (EMU) is also equipped with an Apollo-style "bubble" helmet / Extravehicular Visor Assembly (Evva) high-tech to regulate body temperature warm

10. The I-suite 

Clothes I-Suite is actually began to be introduced in 1997 and used also to the present (2010) through the process of updating the technology in it. I-Suit is designed by ILC Dover. I-Suite includes improvements in materials and manufacturing techniques that make it lighter and more mobile Extravehicular Mobility Unit (EMU) the previous version 
I-suite weighs only 65 pounds (29 kg) without Backpacks Life or thermal / micrometeoroid layer, compared Extravehicular Mobility Unit Clothing (EMU) the previous version weighing up to 107 lbs (49 kg). Clothing is also equipped with a super comfortable cushion in each joint users, so that users can more mobile 

Source: NASA Clothes 

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The Largest Monsters in Hollywood Movie

9. Tyranosaurus-Rex (Jurrasic Park)

For those who have watched Jurassic Park, will definitely know ama mob so this film icon, namely the T-Rex. This prehistoric beast, known as one of the largest carnivore animals that ever existed. And this monster, not a monster fiction of course.
Physical characteristics
Height: 12 meters
Weight: 6-7 Ton
Food: Meat / Carnivore

8. King Kong

When it first appeared, KING KONG in 1933, the legendary King Kong, and even become an icon of American movies. Scenes of King Kong climb the Empire State building, clutching her hero, and finally died in the firing fighter.

Physical characteristics 

high:

Version 1933: 40-50 feet / 12-15 Meter

Version 1976: 60 feet / 18 meters

Version 2005: 25 feet / 7.6 meters

Weight: -

Diet: Omnivore

7. Rancor(STAR WARS: EPISODE VI RETURN OF JEDI)

Rancor is a giant monster that works cuman one: that whatever ngebunuh cohabited.

In Star Wars: Return of the Jedi, first appeared as a pet rancor Jabba the Hutt, the feeding enemies to cave dwellings rancor to be santapannya

Physical characteristics

Height: 5-19 meters

The average weight: 1.65 tons

Food: Carnivore

6. Megatron(TRANSFORMERS)

Fictional character from artificial HASBRO TRANSFORMERS franchise is the mortal enemy of our protagonists Optimus Prime and the leader of a group of Decepticon Transformers robot. Although his performance was not as dreadful as the list above, but which nganggep human nature as nuisance insects that deserves eradicated, making Megatron with its giant size and the ability to kill, be a terrible giant monsters.
Physical characteristics:
Height: 35 feet / 10 meters
Weight: -
The Food: -

5. Mr Stay Puf (Ghostbuster)

It may be the biggest monster, the funniest as well creepy ever in the film. These monsters appear when characters are dealing with demonic ghost exterminator who will cross to the world and ask what form they (the Ghostbusters) select. Accidentally, Dan Akroyd think of Mr. Stay Puft, giant Marshmallow Man possessed by the devil.
Physical data:
Height: 100 - 112.5 feet (30.5 meters - 34.2 meters)
Weight: -
The Food: -

4. Tripod (War of The Worlds 2005)

Crab-shaped machine, three-legged, with a height of up to 100 meters, and issued a beam capable of transforming human beings as we know it into dust, coupled with tentacles that have eyes, making Tripod as one giant terrible monsters.
Physical Data:
Height: 100 Meters
Weight: -
The Food: -

3. Godzilla / Gojira (GODZILLA)

Non alien monsters, this fictional, known as the fictional character from the Japanese. The size is incredible (and the Japanese version has light crusher) made into a monster Godzilla perfect destroyer.

Godzilla vs King Kong:

2. Clover (Cloverfield)

The monster is actually cuman baby, with 25 floors high, trying to survive by attacking humans who also attacked. Terror for any human being exacerbated by the presence of parasites in your body which are also vicious monsters attack the humans.

1. Kraken (Clash of The Titans, Pirates of The Carribean)

According to the film Clash of the Titans, the Kraken is the strongest Titan, which was created by the Titans Hades to exterminate the other. In contrast to the myth of "giant squid" as in the film Pirates of the Caribbean and other films. But have in common is a giant body size, turn off, and the ruler of the seas. Once invoked, the destruction will appear.
RELEASE THE Kraken !!

Compare:

BONUS:

The Mother of Movie Monster: Pacific RIM (2013) 

Kaiju (giant monster) with a height of 100 meters

Source: IMDB, Kaskus

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