30 Things You Should Know Before Embarking On Interior Painting Art | interior painting art

30 Things You Should Know Before Embarking On Interior Painting Art | interior painting art

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Brian Sodoma for Arizona Painting Company Published 4:00 a.m. MT Dec. 1, 2018

Artist Spotlight: Josep Costa Vila…an artistic challenge … – interior painting art | interior painting art

Prepping your home afore a painting aggregation arrives will advice you get the best out of your able painting experience.(Photo: Avalon_Studio, Getty Images)

You’ve fabricated the accommodation to duke off your home autogenous painting assignment to a professional, which is a huge time and cephalalgia saver. At the aforementioned time, there are things you can do to accomplish the job move forth alike added smoothly, while attached abrupt surprises. Tend to these affairs back you basic for a painting aggregation alive in your home.

1. Affective furniture

Painting professionals appetite to afflict your circadian home accepted as little as possible. However, back accomplishing assignment that acceptable involves affective appliance around, a disruption is inevitable. That’s why it’s important to abode breadth appliance should be confused afore the job starts.

“We consistently acclaim that the homeowner moves the appliance to the average of the allowance and sets all the bank hangings, window blinds and knick-knacks on top of the furniture,” explained Joe Campbell, co-owner of Arizona Painting Company, the better painting architect in the state. “For homeowners who are not able to move their own furniture, best painting companies can abetment for a baby added charge.”

Matisse at the Metropolitan Museum until the 17th March … – interior painting art | interior painting art

2. Bank hangings, cords

If a photo anatomy or allotment of bank art will abide in its accepted location, leave the accouterments in place, Campbell notes, so you don’t charge to rehang it. At the aforementioned time, unplug electronics and mark cords or active crews about those electronics that charge to abide acquainted in.

3. Asking about masking

Contractors should booty appropriate affliction to awning all floors, Campbell said. It’s additionally a acceptable abstraction to accomplish abiding floors are as bright as accessible to accomplish it accessible for workers to band off and affectation floors and added items. You may alike appetite to ask about how abundant or little a aggregation masks. Ideally, you appetite a architect who may use added artificial accoutrement than seems to be needed.

“If any spraying is actuality done central (ceilings, closets, doors) the homeowner should apprehend some acrylic dust to achieve which is why we artificial off EVERYTHING,” Campbell noted. “The homeowner may feel like they are active in a balloon during the painting action but we assure you, it’s best to over-mask; this makes the cleanup abundant easier.”

ADOLF HEINRICH HANSEN (1859-1925) Interior in … – interior painting art | interior painting art

4. Cabinets, closets

If bath or kitchen cabinets are actuality painted, unless it is defined in your ambit of work, you will be accepted to move all plates, pots, pans and added items central the cabinets. Find a abode to abundance them, conceivably a allowance or breadth that is not actuality corrective that day, or at all. And if closets are actuality painted, you’ll charge to abandoned them above-mentioned to the crew’s arrival, Campbell added.

5. Dust, fumes

Painting a allowance 20 or added years ago usually complex able effluvium abiding for days. Today’s acrylic formulations, alike those not labeled as low or zero-VOC (volatile amoebic compounds), accept basal odor. At the aforementioned time, it’s still a acceptable abstraction to accumulate areas ventilated. Painting professionals are acquainted of this, but it doesn’t aching to bethink to accumulate windows absurd while crews are alive and alike while acrylic is drying.

6. Added considerations

Acrylic Paintings | Etsy – interior painting art | interior painting art

Here are several added considerations that can advice you get the best out of your able painting experience:

Would you like added painting tips? Appointment the Arizona Painting Company blog. For an estimate, appointment the Arizona Painting Company website or alarm 602-648-3071 to ask about melancholia specials!

Members of the beat and account agents of the USA Today Network were not complex in the conception of this content.

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The post 30 Things You Should Know Before Embarking On Interior Painting Art | interior painting art appeared first on Painter Legend.

Posted by painterlegend on 2018-12-02 15:44:34

Tagged: , art , painting , home , interior , artistic , finishes , design , artists , wall

IMG_5445

IMG_5445

Elements

Everything around us contains material that was once part of a star. The cells in our bodies, the air we breathe, and materials that make up the planets in our solar system are all linked to the stars through chemical elements.

Hydrogen and helium are the two most abundant elements. They were made in the Big Bang more than 13 billion years ago. Others, like oxygen and iron, are created deep inside stars. Supernova explosions blast them into space and form even heavier elements, such as gold and uranium.

Everyday Elements

Chemical elements are the building blocks of everything. The Sun and stars, the silicon chips in our computers, and all the cells in our bodies are collections of elements.

Hydrogen is the lightest and most plentiful element. It has one proton, one electron, and an atomic number of 1. It was created in the Big Bang, along with helium. The other elements up to uranium (number 92) are made in stars.

Elements Made by People

When physicists smash smaller atoms together during experiments in nuclear accelerators and reactors, they create elements that have atomic numbers higher than 92. Neptunium, californium, and plutonium (which is used in spacecraft power supplies) are good examples of these elements. Scientists also study the tracks atomic particles make in bubble chambers during high-speed experiments (right).

Formation and Distribution

Big Bang

The nuclei of the three most basic and plentiful elements in the universe began forming during the first 100 seconds after the Big Bang.

Stars

Atomic reactions deep inside stars combine atoms to form many of the familiar elements that make up planets, stars, galaxies, and us.

Supernovae

The extremely high temperatures and pressures inside exploding stars help create the heaviest elements. Supernova explosions scatter them throughout space.

Humans

Our bodies contain more than two dozen elements. We are made of material that was created in stars.

Gases

Most elements are solids and liquids at room temperature. Eleven are gases.

Stars, People, and Atoms

Elements in Us

The human body is mostly hydrogen and oxygen, with traces of other elements (color coded to the elements table).

How Elements Reach Our Bodies

If you want to know where most elements originate, look at the night sky. Most of the stars and all the planets you see came from materials cooked up deep inside other stars. When those stars died, their elements were scattered into space in gas and dust clouds.

•A nebula is the graveyard of a star that exploded as a supernova. Material in the cloud may become new stars.

We, too, are part of the cosmic recycling process. It began billions of years ago inside an ancient star. The calcium in our bones, iron in our blood, and oxygen in our lungs were all created inside that long-dead star.

•Look at your hand. It is a piece of the universe. Its millions of skin cells are each made of elements from stars.

Elements are the building blocks of the universe. Atoms are the basic units of elements. Most atoms are made up of three types of particles: protons, neutrons, and electrons. Every structure in the cosmos is made of atoms from many different elements.

•Each droplet of carbon is a tenth of the width of a human hair and contains thousands of atoms.

Creation of Elements in Supernova Explosions

Thanks to stars and the elements they create, the universe renews itself. When stars die, their material gets scattered through space as the seeds for new generations of stars. The heaviest elements are created in huge stellar explosions like Supernova 1987a (left). Temperatures and pressures in these outbursts are so high that atoms fuse to make more complex elements, such as lead, gold, and uranium.

The Fingerprints of Elements

Light from celestial objects identifies the chemical elements they contain. Each element has a specific fingerprint, which we can see with a spectroscope. Helium and neon are made inside stars. Helium’s spectral fingerprint is simple, while neon has many more lines. Elements like krypton and mercury are created in supernova explosions.

Posted by Autistic Reality on 2016-05-17 19:33:14

Tagged: , Ahmanson Hall of the Sky , Sky , Skies , Hall , Halls , Hall of the Sky , SoCal , California , CA , USA , US , America , Observatory , Observatories , State of California , Los Angeles , Los Angeles County , Los Feliz , Art Deco , Griffith Observatory , United States of America , United States , Landmarks , Landmark , LA , City of Los Angeles , Astronomy , Observation , Observing , Stargazing , Griffith J. Griffith , Science , Sciences , Building , Buildings , Structure , Structures , Architecture , Griffith Trust , John C. Austin , Frederick M. Ashley , Griffith Park , Park , Parks , Monument , Monuments , Russell W. Porter , Santa Monica Mountains , Mountain , Mountains , Interior , Interiors , Inside , Insides , Indoor , Indoors

IMG_5417

IMG_5417

Elements

Everything around us contains material that was once part of a star. The cells in our bodies, the air we breathe, and materials that make up the planets in our solar system are all linked to the stars through chemical elements.

Hydrogen and helium are the two most abundant elements. They were made in the Big Bang more than 13 billion years ago. Others, like oxygen and iron, are created deep inside stars. Supernova explosions blast them into space and form even heavier elements, such as gold and uranium.

Everyday Elements

Chemical elements are the building blocks of everything. The Sun and stars, the silicon chips in our computers, and all the cells in our bodies are collections of elements.

Hydrogen is the lightest and most plentiful element. It has one proton, one electron, and an atomic number of 1. It was created in the Big Bang, along with helium. The other elements up to uranium (number 92) are made in stars.

Elements Made by People

When physicists smash smaller atoms together during experiments in nuclear accelerators and reactors, they create elements that have atomic numbers higher than 92. Neptunium, californium, and plutonium (which is used in spacecraft power supplies) are good examples of these elements. Scientists also study the tracks atomic particles make in bubble chambers during high-speed experiments (right).

Formation and Distribution

Big Bang

The nuclei of the three most basic and plentiful elements in the universe began forming during the first 100 seconds after the Big Bang.

Stars

Atomic reactions deep inside stars combine atoms to form many of the familiar elements that make up planets, stars, galaxies, and us.

Supernovae

The extremely high temperatures and pressures inside exploding stars help create the heaviest elements. Supernova explosions scatter them throughout space.

Humans

Our bodies contain more than two dozen elements. We are made of material that was created in stars.

Gases

Most elements are solids and liquids at room temperature. Eleven are gases.

Stars, People, and Atoms

Elements in Us

The human body is mostly hydrogen and oxygen, with traces of other elements (color coded to the elements table).

How Elements Reach Our Bodies

If you want to know where most elements originate, look at the night sky. Most of the stars and all the planets you see came from materials cooked up deep inside other stars. When those stars died, their elements were scattered into space in gas and dust clouds.

•A nebula is the graveyard of a star that exploded as a supernova. Material in the cloud may become new stars.

We, too, are part of the cosmic recycling process. It began billions of years ago inside an ancient star. The calcium in our bones, iron in our blood, and oxygen in our lungs were all created inside that long-dead star.

•Look at your hand. It is a piece of the universe. Its millions of skin cells are each made of elements from stars.

Elements are the building blocks of the universe. Atoms are the basic units of elements. Most atoms are made up of three types of particles: protons, neutrons, and electrons. Every structure in the cosmos is made of atoms from many different elements.

•Each droplet of carbon is a tenth of the width of a human hair and contains thousands of atoms.

Creation of Elements in Supernova Explosions

Thanks to stars and the elements they create, the universe renews itself. When stars die, their material gets scattered through space as the seeds for new generations of stars. The heaviest elements are created in huge stellar explosions like Supernova 1987a (left). Temperatures and pressures in these outbursts are so high that atoms fuse to make more complex elements, such as lead, gold, and uranium.

The Fingerprints of Elements

Light from celestial objects identifies the chemical elements they contain. Each element has a specific fingerprint, which we can see with a spectroscope. Helium and neon are made inside stars. Helium’s spectral fingerprint is simple, while neon has many more lines. Elements like krypton and mercury are created in supernova explosions.

Posted by Autistic Reality on 2016-05-17 19:32:59

Tagged: , Ahmanson Hall of the Sky , Sky , Skies , Hall , Halls , Hall of the Sky , SoCal , California , CA , USA , US , America , Observatory , Observatories , State of California , Los Angeles , Los Angeles County , Los Feliz , Art Deco , Griffith Observatory , United States of America , United States , Landmarks , Landmark , LA , City of Los Angeles , Astronomy , Observation , Observing , Stargazing , Griffith J. Griffith , Science , Sciences , Building , Buildings , Structure , Structures , Architecture , Griffith Trust , John C. Austin , Frederick M. Ashley , Griffith Park , Park , Parks , Monument , Monuments , Russell W. Porter , Santa Monica Mountains , Mountain , Mountains , Interior , Interiors , Inside , Insides , Indoor , Indoors

IMG_5428

IMG_5428

Elements

Everything around us contains material that was once part of a star. The cells in our bodies, the air we breathe, and materials that make up the planets in our solar system are all linked to the stars through chemical elements.

Hydrogen and helium are the two most abundant elements. They were made in the Big Bang more than 13 billion years ago. Others, like oxygen and iron, are created deep inside stars. Supernova explosions blast them into space and form even heavier elements, such as gold and uranium.

Everyday Elements

Chemical elements are the building blocks of everything. The Sun and stars, the silicon chips in our computers, and all the cells in our bodies are collections of elements.

Hydrogen is the lightest and most plentiful element. It has one proton, one electron, and an atomic number of 1. It was created in the Big Bang, along with helium. The other elements up to uranium (number 92) are made in stars.

Elements Made by People

When physicists smash smaller atoms together during experiments in nuclear accelerators and reactors, they create elements that have atomic numbers higher than 92. Neptunium, californium, and plutonium (which is used in spacecraft power supplies) are good examples of these elements. Scientists also study the tracks atomic particles make in bubble chambers during high-speed experiments (right).

Formation and Distribution

Big Bang

The nuclei of the three most basic and plentiful elements in the universe began forming during the first 100 seconds after the Big Bang.

Stars

Atomic reactions deep inside stars combine atoms to form many of the familiar elements that make up planets, stars, galaxies, and us.

Supernovae

The extremely high temperatures and pressures inside exploding stars help create the heaviest elements. Supernova explosions scatter them throughout space.

Humans

Our bodies contain more than two dozen elements. We are made of material that was created in stars.

Gases

Most elements are solids and liquids at room temperature. Eleven are gases.

Stars, People, and Atoms

Elements in Us

The human body is mostly hydrogen and oxygen, with traces of other elements (color coded to the elements table).

How Elements Reach Our Bodies

If you want to know where most elements originate, look at the night sky. Most of the stars and all the planets you see came from materials cooked up deep inside other stars. When those stars died, their elements were scattered into space in gas and dust clouds.

•A nebula is the graveyard of a star that exploded as a supernova. Material in the cloud may become new stars.

We, too, are part of the cosmic recycling process. It began billions of years ago inside an ancient star. The calcium in our bones, iron in our blood, and oxygen in our lungs were all created inside that long-dead star.

•Look at your hand. It is a piece of the universe. Its millions of skin cells are each made of elements from stars.

Elements are the building blocks of the universe. Atoms are the basic units of elements. Most atoms are made up of three types of particles: protons, neutrons, and electrons. Every structure in the cosmos is made of atoms from many different elements.

•Each droplet of carbon is a tenth of the width of a human hair and contains thousands of atoms.

Creation of Elements in Supernova Explosions

Thanks to stars and the elements they create, the universe renews itself. When stars die, their material gets scattered through space as the seeds for new generations of stars. The heaviest elements are created in huge stellar explosions like Supernova 1987a (left). Temperatures and pressures in these outbursts are so high that atoms fuse to make more complex elements, such as lead, gold, and uranium.

The Fingerprints of Elements

Light from celestial objects identifies the chemical elements they contain. Each element has a specific fingerprint, which we can see with a spectroscope. Helium and neon are made inside stars. Helium’s spectral fingerprint is simple, while neon has many more lines. Elements like krypton and mercury are created in supernova explosions.

Posted by Autistic Reality on 2016-05-17 19:33:04

Tagged: , Ahmanson Hall of the Sky , Sky , Skies , Hall , Halls , Hall of the Sky , SoCal , California , CA , USA , US , America , Observatory , Observatories , State of California , Los Angeles , Los Angeles County , Los Feliz , Art Deco , Griffith Observatory , United States of America , United States , Landmarks , Landmark , LA , City of Los Angeles , Astronomy , Observation , Observing , Stargazing , Griffith J. Griffith , Science , Sciences , Building , Buildings , Structure , Structures , Architecture , Griffith Trust , John C. Austin , Frederick M. Ashley , Griffith Park , Park , Parks , Monument , Monuments , Russell W. Porter , Santa Monica Mountains , Mountain , Mountains , Interior , Interiors , Inside , Insides , Indoor , Indoors

IMG_5413

IMG_5413

Elements

Everything around us contains material that was once part of a star. The cells in our bodies, the air we breathe, and materials that make up the planets in our solar system are all linked to the stars through chemical elements.

Hydrogen and helium are the two most abundant elements. They were made in the Big Bang more than 13 billion years ago. Others, like oxygen and iron, are created deep inside stars. Supernova explosions blast them into space and form even heavier elements, such as gold and uranium.

Everyday Elements

Chemical elements are the building blocks of everything. The Sun and stars, the silicon chips in our computers, and all the cells in our bodies are collections of elements.

Hydrogen is the lightest and most plentiful element. It has one proton, one electron, and an atomic number of 1. It was created in the Big Bang, along with helium. The other elements up to uranium (number 92) are made in stars.

Elements Made by People

When physicists smash smaller atoms together during experiments in nuclear accelerators and reactors, they create elements that have atomic numbers higher than 92. Neptunium, californium, and plutonium (which is used in spacecraft power supplies) are good examples of these elements. Scientists also study the tracks atomic particles make in bubble chambers during high-speed experiments (right).

Formation and Distribution

Big Bang

The nuclei of the three most basic and plentiful elements in the universe began forming during the first 100 seconds after the Big Bang.

Stars

Atomic reactions deep inside stars combine atoms to form many of the familiar elements that make up planets, stars, galaxies, and us.

Supernovae

The extremely high temperatures and pressures inside exploding stars help create the heaviest elements. Supernova explosions scatter them throughout space.

Humans

Our bodies contain more than two dozen elements. We are made of material that was created in stars.

Gases

Most elements are solids and liquids at room temperature. Eleven are gases.

Stars, People, and Atoms

Elements in Us

The human body is mostly hydrogen and oxygen, with traces of other elements (color coded to the elements table).

How Elements Reach Our Bodies

If you want to know where most elements originate, look at the night sky. Most of the stars and all the planets you see came from materials cooked up deep inside other stars. When those stars died, their elements were scattered into space in gas and dust clouds.

•A nebula is the graveyard of a star that exploded as a supernova. Material in the cloud may become new stars.

We, too, are part of the cosmic recycling process. It began billions of years ago inside an ancient star. The calcium in our bones, iron in our blood, and oxygen in our lungs were all created inside that long-dead star.

•Look at your hand. It is a piece of the universe. Its millions of skin cells are each made of elements from stars.

Elements are the building blocks of the universe. Atoms are the basic units of elements. Most atoms are made up of three types of particles: protons, neutrons, and electrons. Every structure in the cosmos is made of atoms from many different elements.

•Each droplet of carbon is a tenth of the width of a human hair and contains thousands of atoms.

Creation of Elements in Supernova Explosions

Thanks to stars and the elements they create, the universe renews itself. When stars die, their material gets scattered through space as the seeds for new generations of stars. The heaviest elements are created in huge stellar explosions like Supernova 1987a (left). Temperatures and pressures in these outbursts are so high that atoms fuse to make more complex elements, such as lead, gold, and uranium.

The Fingerprints of Elements

Light from celestial objects identifies the chemical elements they contain. Each element has a specific fingerprint, which we can see with a spectroscope. Helium and neon are made inside stars. Helium’s spectral fingerprint is simple, while neon has many more lines. Elements like krypton and mercury are created in supernova explosions.

Posted by Autistic Reality on 2016-05-17 19:32:57

Tagged: , Ahmanson Hall of the Sky , Sky , Skies , Hall , Halls , Hall of the Sky , SoCal , California , CA , USA , US , America , Observatory , Observatories , State of California , Los Angeles , Los Angeles County , Los Feliz , Art Deco , Griffith Observatory , United States of America , United States , Landmarks , Landmark , LA , City of Los Angeles , Astronomy , Observation , Observing , Stargazing , Griffith J. Griffith , Science , Sciences , Building , Buildings , Structure , Structures , Architecture , Griffith Trust , John C. Austin , Frederick M. Ashley , Griffith Park , Park , Parks , Monument , Monuments , Russell W. Porter , Santa Monica Mountains , Mountain , Mountains , Interior , Interiors , Inside , Insides , Indoor , Indoors

IMG_5426

IMG_5426

Elements

Everything around us contains material that was once part of a star. The cells in our bodies, the air we breathe, and materials that make up the planets in our solar system are all linked to the stars through chemical elements.

Hydrogen and helium are the two most abundant elements. They were made in the Big Bang more than 13 billion years ago. Others, like oxygen and iron, are created deep inside stars. Supernova explosions blast them into space and form even heavier elements, such as gold and uranium.

Everyday Elements

Chemical elements are the building blocks of everything. The Sun and stars, the silicon chips in our computers, and all the cells in our bodies are collections of elements.

Hydrogen is the lightest and most plentiful element. It has one proton, one electron, and an atomic number of 1. It was created in the Big Bang, along with helium. The other elements up to uranium (number 92) are made in stars.

Elements Made by People

When physicists smash smaller atoms together during experiments in nuclear accelerators and reactors, they create elements that have atomic numbers higher than 92. Neptunium, californium, and plutonium (which is used in spacecraft power supplies) are good examples of these elements. Scientists also study the tracks atomic particles make in bubble chambers during high-speed experiments (right).

Formation and Distribution

Big Bang

The nuclei of the three most basic and plentiful elements in the universe began forming during the first 100 seconds after the Big Bang.

Stars

Atomic reactions deep inside stars combine atoms to form many of the familiar elements that make up planets, stars, galaxies, and us.

Supernovae

The extremely high temperatures and pressures inside exploding stars help create the heaviest elements. Supernova explosions scatter them throughout space.

Humans

Our bodies contain more than two dozen elements. We are made of material that was created in stars.

Gases

Most elements are solids and liquids at room temperature. Eleven are gases.

Stars, People, and Atoms

Elements in Us

The human body is mostly hydrogen and oxygen, with traces of other elements (color coded to the elements table).

How Elements Reach Our Bodies

If you want to know where most elements originate, look at the night sky. Most of the stars and all the planets you see came from materials cooked up deep inside other stars. When those stars died, their elements were scattered into space in gas and dust clouds.

•A nebula is the graveyard of a star that exploded as a supernova. Material in the cloud may become new stars.

We, too, are part of the cosmic recycling process. It began billions of years ago inside an ancient star. The calcium in our bones, iron in our blood, and oxygen in our lungs were all created inside that long-dead star.

•Look at your hand. It is a piece of the universe. Its millions of skin cells are each made of elements from stars.

Elements are the building blocks of the universe. Atoms are the basic units of elements. Most atoms are made up of three types of particles: protons, neutrons, and electrons. Every structure in the cosmos is made of atoms from many different elements.

•Each droplet of carbon is a tenth of the width of a human hair and contains thousands of atoms.

Creation of Elements in Supernova Explosions

Thanks to stars and the elements they create, the universe renews itself. When stars die, their material gets scattered through space as the seeds for new generations of stars. The heaviest elements are created in huge stellar explosions like Supernova 1987a (left). Temperatures and pressures in these outbursts are so high that atoms fuse to make more complex elements, such as lead, gold, and uranium.

The Fingerprints of Elements

Light from celestial objects identifies the chemical elements they contain. Each element has a specific fingerprint, which we can see with a spectroscope. Helium and neon are made inside stars. Helium’s spectral fingerprint is simple, while neon has many more lines. Elements like krypton and mercury are created in supernova explosions.

Posted by Autistic Reality on 2016-05-17 19:33:03

Tagged: , Ahmanson Hall of the Sky , Sky , Skies , Hall , Halls , Hall of the Sky , SoCal , California , CA , USA , US , America , Observatory , Observatories , State of California , Los Angeles , Los Angeles County , Los Feliz , Art Deco , Griffith Observatory , United States of America , United States , Landmarks , Landmark , LA , City of Los Angeles , Astronomy , Observation , Observing , Stargazing , Griffith J. Griffith , Science , Sciences , Building , Buildings , Structure , Structures , Architecture , Griffith Trust , John C. Austin , Frederick M. Ashley , Griffith Park , Park , Parks , Monument , Monuments , Russell W. Porter , Santa Monica Mountains , Mountain , Mountains , Interior , Interiors , Inside , Insides , Indoor , Indoors

IMG_5414

IMG_5414

Elements

Everything around us contains material that was once part of a star. The cells in our bodies, the air we breathe, and materials that make up the planets in our solar system are all linked to the stars through chemical elements.

Hydrogen and helium are the two most abundant elements. They were made in the Big Bang more than 13 billion years ago. Others, like oxygen and iron, are created deep inside stars. Supernova explosions blast them into space and form even heavier elements, such as gold and uranium.

Everyday Elements

Chemical elements are the building blocks of everything. The Sun and stars, the silicon chips in our computers, and all the cells in our bodies are collections of elements.

Hydrogen is the lightest and most plentiful element. It has one proton, one electron, and an atomic number of 1. It was created in the Big Bang, along with helium. The other elements up to uranium (number 92) are made in stars.

Elements Made by People

When physicists smash smaller atoms together during experiments in nuclear accelerators and reactors, they create elements that have atomic numbers higher than 92. Neptunium, californium, and plutonium (which is used in spacecraft power supplies) are good examples of these elements. Scientists also study the tracks atomic particles make in bubble chambers during high-speed experiments (right).

Formation and Distribution

Big Bang

The nuclei of the three most basic and plentiful elements in the universe began forming during the first 100 seconds after the Big Bang.

Stars

Atomic reactions deep inside stars combine atoms to form many of the familiar elements that make up planets, stars, galaxies, and us.

Supernovae

The extremely high temperatures and pressures inside exploding stars help create the heaviest elements. Supernova explosions scatter them throughout space.

Humans

Our bodies contain more than two dozen elements. We are made of material that was created in stars.

Gases

Most elements are solids and liquids at room temperature. Eleven are gases.

Stars, People, and Atoms

Elements in Us

The human body is mostly hydrogen and oxygen, with traces of other elements (color coded to the elements table).

How Elements Reach Our Bodies

If you want to know where most elements originate, look at the night sky. Most of the stars and all the planets you see came from materials cooked up deep inside other stars. When those stars died, their elements were scattered into space in gas and dust clouds.

•A nebula is the graveyard of a star that exploded as a supernova. Material in the cloud may become new stars.

We, too, are part of the cosmic recycling process. It began billions of years ago inside an ancient star. The calcium in our bones, iron in our blood, and oxygen in our lungs were all created inside that long-dead star.

•Look at your hand. It is a piece of the universe. Its millions of skin cells are each made of elements from stars.

Elements are the building blocks of the universe. Atoms are the basic units of elements. Most atoms are made up of three types of particles: protons, neutrons, and electrons. Every structure in the cosmos is made of atoms from many different elements.

•Each droplet of carbon is a tenth of the width of a human hair and contains thousands of atoms.

Creation of Elements in Supernova Explosions

Thanks to stars and the elements they create, the universe renews itself. When stars die, their material gets scattered through space as the seeds for new generations of stars. The heaviest elements are created in huge stellar explosions like Supernova 1987a (left). Temperatures and pressures in these outbursts are so high that atoms fuse to make more complex elements, such as lead, gold, and uranium.

The Fingerprints of Elements

Light from celestial objects identifies the chemical elements they contain. Each element has a specific fingerprint, which we can see with a spectroscope. Helium and neon are made inside stars. Helium’s spectral fingerprint is simple, while neon has many more lines. Elements like krypton and mercury are created in supernova explosions.

Posted by Autistic Reality on 2016-05-17 19:32:57

Tagged: , Ahmanson Hall of the Sky , Sky , Skies , Hall , Halls , Hall of the Sky , SoCal , California , CA , USA , US , America , Observatory , Observatories , State of California , Los Angeles , Los Angeles County , Los Feliz , Art Deco , Griffith Observatory , United States of America , United States , Landmarks , Landmark , LA , City of Los Angeles , Astronomy , Observation , Observing , Stargazing , Griffith J. Griffith , Science , Sciences , Building , Buildings , Structure , Structures , Architecture , Griffith Trust , John C. Austin , Frederick M. Ashley , Griffith Park , Park , Parks , Monument , Monuments , Russell W. Porter , Santa Monica Mountains , Mountain , Mountains , Interior , Interiors , Inside , Insides , Indoor , Indoors

IMG_5412

IMG_5412

Elements

Everything around us contains material that was once part of a star. The cells in our bodies, the air we breathe, and materials that make up the planets in our solar system are all linked to the stars through chemical elements.

Hydrogen and helium are the two most abundant elements. They were made in the Big Bang more than 13 billion years ago. Others, like oxygen and iron, are created deep inside stars. Supernova explosions blast them into space and form even heavier elements, such as gold and uranium.

Everyday Elements

Chemical elements are the building blocks of everything. The Sun and stars, the silicon chips in our computers, and all the cells in our bodies are collections of elements.

Hydrogen is the lightest and most plentiful element. It has one proton, one electron, and an atomic number of 1. It was created in the Big Bang, along with helium. The other elements up to uranium (number 92) are made in stars.

Elements Made by People

When physicists smash smaller atoms together during experiments in nuclear accelerators and reactors, they create elements that have atomic numbers higher than 92. Neptunium, californium, and plutonium (which is used in spacecraft power supplies) are good examples of these elements. Scientists also study the tracks atomic particles make in bubble chambers during high-speed experiments (right).

Formation and Distribution

Big Bang

The nuclei of the three most basic and plentiful elements in the universe began forming during the first 100 seconds after the Big Bang.

Stars

Atomic reactions deep inside stars combine atoms to form many of the familiar elements that make up planets, stars, galaxies, and us.

Supernovae

The extremely high temperatures and pressures inside exploding stars help create the heaviest elements. Supernova explosions scatter them throughout space.

Humans

Our bodies contain more than two dozen elements. We are made of material that was created in stars.

Gases

Most elements are solids and liquids at room temperature. Eleven are gases.

Stars, People, and Atoms

Elements in Us

The human body is mostly hydrogen and oxygen, with traces of other elements (color coded to the elements table).

How Elements Reach Our Bodies

If you want to know where most elements originate, look at the night sky. Most of the stars and all the planets you see came from materials cooked up deep inside other stars. When those stars died, their elements were scattered into space in gas and dust clouds.

•A nebula is the graveyard of a star that exploded as a supernova. Material in the cloud may become new stars.

We, too, are part of the cosmic recycling process. It began billions of years ago inside an ancient star. The calcium in our bones, iron in our blood, and oxygen in our lungs were all created inside that long-dead star.

•Look at your hand. It is a piece of the universe. Its millions of skin cells are each made of elements from stars.

Elements are the building blocks of the universe. Atoms are the basic units of elements. Most atoms are made up of three types of particles: protons, neutrons, and electrons. Every structure in the cosmos is made of atoms from many different elements.

•Each droplet of carbon is a tenth of the width of a human hair and contains thousands of atoms.

Creation of Elements in Supernova Explosions

Thanks to stars and the elements they create, the universe renews itself. When stars die, their material gets scattered through space as the seeds for new generations of stars. The heaviest elements are created in huge stellar explosions like Supernova 1987a (left). Temperatures and pressures in these outbursts are so high that atoms fuse to make more complex elements, such as lead, gold, and uranium.

The Fingerprints of Elements

Light from celestial objects identifies the chemical elements they contain. Each element has a specific fingerprint, which we can see with a spectroscope. Helium and neon are made inside stars. Helium’s spectral fingerprint is simple, while neon has many more lines. Elements like krypton and mercury are created in supernova explosions.

Posted by Autistic Reality on 2016-05-17 19:32:57

Tagged: , Ahmanson Hall of the Sky , Sky , Skies , Hall , Halls , Hall of the Sky , SoCal , California , CA , USA , US , America , Observatory , Observatories , State of California , Los Angeles , Los Angeles County , Los Feliz , Art Deco , Griffith Observatory , United States of America , United States , Landmarks , Landmark , LA , City of Los Angeles , Astronomy , Observation , Observing , Stargazing , Griffith J. Griffith , Science , Sciences , Building , Buildings , Structure , Structures , Architecture , Griffith Trust , John C. Austin , Frederick M. Ashley , Griffith Park , Park , Parks , Monument , Monuments , Russell W. Porter , Santa Monica Mountains , Mountain , Mountains , Interior , Interiors , Inside , Insides , Indoor , Indoors

IMG_5416

IMG_5416

Elements

Everything around us contains material that was once part of a star. The cells in our bodies, the air we breathe, and materials that make up the planets in our solar system are all linked to the stars through chemical elements.

Hydrogen and helium are the two most abundant elements. They were made in the Big Bang more than 13 billion years ago. Others, like oxygen and iron, are created deep inside stars. Supernova explosions blast them into space and form even heavier elements, such as gold and uranium.

Everyday Elements

Chemical elements are the building blocks of everything. The Sun and stars, the silicon chips in our computers, and all the cells in our bodies are collections of elements.

Hydrogen is the lightest and most plentiful element. It has one proton, one electron, and an atomic number of 1. It was created in the Big Bang, along with helium. The other elements up to uranium (number 92) are made in stars.

Elements Made by People

When physicists smash smaller atoms together during experiments in nuclear accelerators and reactors, they create elements that have atomic numbers higher than 92. Neptunium, californium, and plutonium (which is used in spacecraft power supplies) are good examples of these elements. Scientists also study the tracks atomic particles make in bubble chambers during high-speed experiments (right).

Formation and Distribution

Big Bang

The nuclei of the three most basic and plentiful elements in the universe began forming during the first 100 seconds after the Big Bang.

Stars

Atomic reactions deep inside stars combine atoms to form many of the familiar elements that make up planets, stars, galaxies, and us.

Supernovae

The extremely high temperatures and pressures inside exploding stars help create the heaviest elements. Supernova explosions scatter them throughout space.

Humans

Our bodies contain more than two dozen elements. We are made of material that was created in stars.

Gases

Most elements are solids and liquids at room temperature. Eleven are gases.

Stars, People, and Atoms

Elements in Us

The human body is mostly hydrogen and oxygen, with traces of other elements (color coded to the elements table).

How Elements Reach Our Bodies

If you want to know where most elements originate, look at the night sky. Most of the stars and all the planets you see came from materials cooked up deep inside other stars. When those stars died, their elements were scattered into space in gas and dust clouds.

•A nebula is the graveyard of a star that exploded as a supernova. Material in the cloud may become new stars.

We, too, are part of the cosmic recycling process. It began billions of years ago inside an ancient star. The calcium in our bones, iron in our blood, and oxygen in our lungs were all created inside that long-dead star.

•Look at your hand. It is a piece of the universe. Its millions of skin cells are each made of elements from stars.

Elements are the building blocks of the universe. Atoms are the basic units of elements. Most atoms are made up of three types of particles: protons, neutrons, and electrons. Every structure in the cosmos is made of atoms from many different elements.

•Each droplet of carbon is a tenth of the width of a human hair and contains thousands of atoms.

Creation of Elements in Supernova Explosions

Thanks to stars and the elements they create, the universe renews itself. When stars die, their material gets scattered through space as the seeds for new generations of stars. The heaviest elements are created in huge stellar explosions like Supernova 1987a (left). Temperatures and pressures in these outbursts are so high that atoms fuse to make more complex elements, such as lead, gold, and uranium.

The Fingerprints of Elements

Light from celestial objects identifies the chemical elements they contain. Each element has a specific fingerprint, which we can see with a spectroscope. Helium and neon are made inside stars. Helium’s spectral fingerprint is simple, while neon has many more lines. Elements like krypton and mercury are created in supernova explosions.

Posted by Autistic Reality on 2016-05-17 19:32:58

Tagged: , Ahmanson Hall of the Sky , Sky , Skies , Hall , Halls , Hall of the Sky , SoCal , California , CA , USA , US , America , Observatory , Observatories , State of California , Los Angeles , Los Angeles County , Los Feliz , Art Deco , Griffith Observatory , United States of America , United States , Landmarks , Landmark , LA , City of Los Angeles , Astronomy , Observation , Observing , Stargazing , Griffith J. Griffith , Science , Sciences , Building , Buildings , Structure , Structures , Architecture , Griffith Trust , John C. Austin , Frederick M. Ashley , Griffith Park , Park , Parks , Monument , Monuments , Russell W. Porter , Santa Monica Mountains , Mountain , Mountains , Interior , Interiors , Inside , Insides , Indoor , Indoors

Château-IBM-1

Château-IBM-1

Posted by Symphony of Decay – Urbex on 2019-02-02 18:00:36

Tagged: , creepy , verlassen , building , neglected , nobody , history , memories , Light , Lost , Photography , past , Old , interieur , intérieur , interdite , Urbanexploration , urbaine , urbain , Urban , Urbex , trespassing , rotten , ruins , rusty , rust , explored , explo , empty , Exploring , explore , Exploration , explorationurbaine , centrale , usine , powerplant , industriel , industrial , inexplore , interdit , inside , Interior , forbidden , forgotten , destroyed , dusty , decayed , dust , derelict , decaying , Decay , architecture , alone , ancienne , ancien , abbandonata , abbandonato , Abandonnée , abandonné , Abandon , abandoned , Canon , 700d , ibm , computer , nightclub , house , party , Personnes , sur , la , photo