1. Unit 1 Lesson 3 The Life Cycle of Stars
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2. A Star Is Born What is the life cycle of a star?
Unit 1 Lesson 3 The Life Cycle of Stars
A Star Is Born
What is the life cycle of a star?
Stars form in nebulae.
A nebula is a large cloud of gas and dust. It is composed mainly of hydrogen and helium, with small amounts of heavier elements.
An outside force, such as the explosion of a nearby star, may cause the nebula to contract and cool.
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3. What is the life cycle of a star?
Unit 1 Lesson 3 The Life Cycle of Stars
What is the life cycle of a star?
As particles within the nebula are pulled closer together, gravitational attraction increases.
As a result, dense regions of gas and dust form within the nebula.
The densest regions, called dense cores, form new stars.
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4. What is the life cycle of a star?
Unit 1 Lesson 3 The Life Cycle of Stars
What is the life cycle of a star?
The temperature within dense cores increases for millions of years.
At about 10 million °C, the process of hydrogen nuclear fusion begins, marking the birth of a star.
A star can remain actively fusing hydrogen into helium for billions of years. This stage ends when the star runs out of hydrogen.
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5. What is the life cycle of a star?
Unit 1 Lesson 3 The Life Cycle of Stars
What is the life cycle of a star?
Nuclear fusion happens in three steps.
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6. What is the life cycle of a star?
Unit 1 Lesson 3 The Life Cycle of Stars
What is the life cycle of a star?
When nearly all the hydrogen in a star’s core has fused into helium, the core contracts under its own gravity and its temperature rises.
Energy is transferred to a thin shell of hydrogen surrounding the core, where hydrogen fusion continues and the shell expands.
When fusion ends completely, the star begins to eject matter, until only the core remains.
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7. The Lightweights What is the life cycle of a low-mass star?
Unit 1 Lesson 3 The Life Cycle of Stars
The Lightweights
What is the life cycle of a low-mass star?
The outward pressure generated by a star’s fusion reaction is in balance with the inward gravitational pull.
When the active fusion stage ends, these forces are no longer in balance, and the star’s outer atmosphere expands.
The gases in the outer shell grow cooler, and the star is much larger and glows red. These large red stars are called giants.
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8. What is the life cycle of a low-mass star?
Unit 1 Lesson 3 The Life Cycle of Stars
What is the life cycle of a low-mass star?
Giant stars shine brightly because of their large surface areas.
Giants are at least 10 times the size of the sun.
Low-mass stars, which contain about as much mass as the sun, will become red giants.
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9. What is the life cycle of a low-mass star?
Unit 1 Lesson 3 The Life Cycle of Stars
What is the life cycle of a low-mass star?
Over time, a giant’s outer gases drift away, and the remaining core collapses, becoming denser and very hot.
A white dwarf is the hot, dense core of matter that remains from the collapse of a low-mass star. It is about the size of Earth.
White dwarfs shine for billions of years, becoming fainter as they cool. This is the final stage in the life cycle of low-mass stars.
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10. What is the life cycle of a low-mass star?
Unit 1 Lesson 3 The Life Cycle of Stars
What is the life cycle of a low-mass star?
How does a low-mass star become a giant and then a white dwarf?
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11. The Heavyweights What is the life cycle of a high-mass star?
Unit 1 Lesson 3 The Life Cycle of Stars
The Heavyweights
What is the life cycle of a high-mass star?
When hydrogen fusion in a high-mass star ends, other types of fusion begin, producing elements heavier than carbon.
The star expands to become a supergiant.
A star with 10 times the mass of our sun will become a supergiant in just 20 million years.
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12. What is the life cycle of a high-mass star?
Unit 1 Lesson 3 The Life Cycle of Stars
What is the life cycle of a high-mass star?
In the supergiant stage, the high-mass star fuses larger and larger nuclei until all its nuclear fuel is used up.
The core then rapidly collapses and heats up. This halts the collapse, and the supergiant becomes a supernova.
A supernova is a gigantic explosion in which a high-mass star collapses, throwing its outer layers into space. But its core remains.
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13. What is the life cycle of a high-mass star?
Unit 1 Lesson 3 The Life Cycle of Stars
What is the life cycle of a high-mass star?
Compare the sizes of the sun and a high-mass star.
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14. What is the life cycle of a high-mass star?
Unit 1 Lesson 3 The Life Cycle of Stars
What is the life cycle of a high-mass star?
As the core of a supernova continues to collapse, its protons and electrons smash together to form neutrons.
The resulting neutron star is a small, incredibly dense ball of closely packed neutrons.
Neutron stars rotate very rapidly. Some emit a rotating beam of electromagnetic radiation. These stars are called pulsars.
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15. What is the life cycle of a high-mass star?
Unit 1 Lesson 3 The Life Cycle of Stars
What is the life cycle of a high-mass star?
Some supergiants are so massive that their cores are unable to stop collapsing under the force of gravity.
As the core collapses, the mass of the star is compressed into a single point, which is called a black hole.
A black hole is an invisible object with gravity so great that nothing, not even light, can escape it.
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16. What is the life cycle of a high-mass star?
Unit 1 Lesson 3 The Life Cycle of Stars
What is the life cycle of a high-mass star?
Although black holes are invisible, they can be observed by the gravitational effect they have on their surroundings.
Matter swirls around a black hole just before being pulled in. The matter becomes so hot that it emits X-rays.
Astronomers use X-rays and other means to locate black holes, even within our own galaxy.
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17. A Graphic Display How are stars plotted on the H-R diagram?
Unit 1 Lesson 3 The Life Cycle of Stars
A Graphic Display
How are stars plotted on the H-R diagram?
Astronomers refer to brightness as luminosity. Luminosity is a measure of the total amount of energy a star gives off each second.
When the surface temperatures of stars are plotted against their luminosity, a consistent pattern is revealed.
The graph that illustrates this pattern is called the Hertzsprung-Russell diagram, or H-R diagram.
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18. How are stars plotted on the H-R diagram?
Unit 1 Lesson 3 The Life Cycle of Stars
How are stars plotted on the H-R diagram?
The hottest stars are located on the left side of the H-R diagram and are blue.
The coolest stars are located on the right side of the diagram and are red.
The brightest stars are located at the top of the diagram, and the dimmest stars are located at the bottom.
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19. How does the H-R diagram show different life cycle stages?
Unit 1 Lesson 3 The Life Cycle of Stars
How does the H-R diagram show different life cycle stages?
The temperature and luminosity of most stars fall within a band that runs diagonally through the middle of the H-R diagram.
This band, called the main sequence, is the region of the diagram where stars spend most of their lives.
Stars within this band are actively fusing hydrogen and are called main-sequence stars.
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20. How does the H-R diagram show different life cycle stages?
Unit 1 Lesson 3 The Life Cycle of Stars
How does the H-R diagram show different life cycle stages?
The sun is a main-sequence star.
When nuclear fusion ends in the sun, it will become a giant and will move to the upper right quadrant of the H-R diagram.
When the outer layers of the giant are lost to space, the sun will become a white dwarf and move to the lower left quadrant of the diagram.
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21. How does the H-R diagram show different life cycle stages?
Unit 1 Lesson 3 The Life Cycle of Stars
How does the H-R diagram show different life cycle stages?
Locate the positions of the brightest stars and the coolest stars on the diagram.
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