Chapter Twenty-Seven: Stars 27.1 The Sun 27.2 Stars 27.3 The Life Cycle of Stars.

Chapter Twenty-Seven: Stars

27.1 The Sun

27.2 Stars

27.3 The Life Cycle of Stars

NGC 3532 in the constellation Carina ESO/G.Beccari

27.2 How are stars classified?

Astronomers classify stars according to:



size/mass,



size/mass, temperature,



size/mass, temperature, color, and



size/mass, temperature, color, and brightness.

27.2 What is the size of stars? Stars come in a

range of sizes and masses.



Our Sun is a medium-sized star.



Our Sun is a medium-sized star.

The largest stars, giant stars have a mass of about 60 times the mass of the Sun.

The sun is considered a __________ star.

a.Giant

b.Medium-sized

c.Dwarf

27.2 The size of stars

There are two types of giant stars.


What are two types of giant stars?

Red giants are cooler than white stars.


What are two types of giant stars?

Red giants are cooler than white stars.

Blue giant stars are hot and much more massive than our sun.

Which star is cooler, a blue giant or a red giant?


Stars that are smaller than the sun come in two main categories, dwarfs and neutron stars.


Stars that are smaller than the sun come in two main categories, dwarfs and neutron stars.

Sirius, the Dog Star, is the largest known white dwarf.

27.2 How is temperature and color related with stars?

If you look closely at the stars on a clear night, you might see a slight reddish or bluish tint to some stars.

27.2 How is temperature and color related with stars?

If you look closely at the stars on a clear night, you might see a slight reddish or bluish tint to some stars.

This is because their surface temperatures are different.

27.2 Temperature and color

The color of light is related to its energy.

27.2 Temperature and color

The color of light is related to its energy.

White light is a mixture of all colors at equal brightness.

27.2 Brightness and luminosity

Brightness, also called intensity, describes the amount of light energy per second falling on a surface.


For a distant source of light like a star, the brightness decreases as the inverse square of the distance.

What does the inverse square law mean?


Luminosity is the total amount of light given off by a star in all directions.

.


Luminosity is the total amount of light given off by a star in all directions.

Luminosity is a fundamental property of a star whereas brightness depends on both luminosity and distance.

27.2 Temperature and luminosity In the early 1900s, Danish

astronomer Ejnar Hertzsprung and American astronomer Henry Russell developed an important tool for studying stars.



Their graph showed luminosity on the y axis…



Their graph showed luminosity on the y axis…

…and surface temperature on the x axis

27.2 Temperature and luminosity H-R diagrams are useful because they

help astronomers categorize stars into groups:

?


help astronomers categorize stars into groups: Main sequence stars, like the Sun, are in a

very stable part of their life cycle.



very stable part of their life cycle. White dwarfs are hot and dim and cannot

be seen without a telescope.



very stable part of their life cycle. White dwarfs are hot and dim and cannot be

seen without a telescope. Red giants are cool and bright and some can

be seen without a telescope.



very stable part of their life cycle. White dwarfs are hot and dim and cannot be

seen without a telescope. Red giants are cool and bright and some can

be seen without a telescope. Can you locate blue giants on the H-R

diagram?

Chapter Twenty-Seven: Stars

27.1 The Sun

27.2 Stars

27.3 The Life Cycle of Stars

27.3 The life cycle of stars

A star, regardless of its size, begins its life inside a huge cloud of gas (mostly hydrogen) and dust called a nebula.


A star, regardless of its size, begins its life inside a huge cloud of gas (mostly hydrogen) and dust called a nebula.

The Eagle Nebula is the birthplace of many stars.


A protostar is the earliest stage in the life cycle of a star.


A protostar is the earliest stage in the life cycle of a star.

The Orion Nebula was the birthplace of these protostars.

27.3 The life cycle of stars A star is born when temperature and

pressure at its center become great enough to start nuclear fusion.

27.3 The life cycle of stars A star is born when temperature and

pressure at its center become great enough to start nuclear fusion.

Once nuclear fusion begins, a star is in the main sequence stage of its life cycle.


The time a star stays on the main sequence depends on the star’s mass.


The time a star stays on the main sequence depends on the star’s mass.

High-mass stars burn brighter, and hotter, using up their hydrogen faster than low-mass stars.

27.2 The old age of Sun-like stars

With no more energy flowing outward, nothing prevents gravity from crushing the matter in the core together.


With no more energy flowing outward, nothing prevents gravity from crushing the matter in the core together.

When hydrogen fusion stops, the core glows brightly and is called a white dwarf.


A planetary nebula forms when a star blows off its outer layers leaving its bare core exposed as white dwarf.


A planetary nebula forms when a star blows off its outer layers leaving its bare core exposed as white dwarf.

Planetary nebulae are one of nature’s ways of recycling the matter in old stars and distributing new elements.

27.3 Supernovae and synthesis of the elements

Scientists believe the early universe was mostly hydrogen, helium and a trace of lithium.



Heavier elements are created by nuclear fusion inside the cores of stars.




Nuclear fusion reactions are exothermic, releasing energy only up to iron.




Nuclear fusion reactions are exothermic, releasing energy only up to iron.

When the core of the star contains mostly iron, nuclear fusion stops.


If a star’s iron core reaches 1.4 times the mass of the Sun, gravity becomes strong enough to combine electrons and protons into neutrons.



During this brief period, heavier elements such as gold and uranium are created, as atomic nuclei are smashed together.



During this brief period, heavier elements such as gold and uranium are created, as atomic nuclei are smashed together.

The core of the star collapses and the result is a spectacular explosion called a supernova.


The Crab nebula is the remains of a supernova.


The Crab nebula is the remains of a supernova.

Chinese astronomers recorded it’s demise 1054 AD.

27.3 Examining light from stars

Spectroscopy is a tool of astronomy in which the light produced by a star or other object (called its spectrum) is analyzed.

27.3 Analyzing light from stars A spectrometer splits light into a

spectrum of colors and displays lines of different colors along a scale.

27.3 Analyzing light from stars A spectrometer splits light into a

spectrum of colors and displays lines of different colors along a scale.

Each element has its own unique pattern of spectral lines.

27.2 Analyzing light from stars

In 1861, Sir William Huggins used spectroscopy to determine that the Sun and the stars are made mostly of hydrogen.


A few years later, Sir Joseph Norman Lockyer observed a line at the exact wavelength of 587.6 nm.

He concluded that this must be an undiscovered element and named it helium, after the Greek name for the Sun, Helios.



He concluded that this must be an undiscovered element and named it helium, after the Greek name for the Sun, Helios.

Chapter Twenty-Seven: Stars 27.1 The Sun 27.2 Stars 27.3 The Life Cycle of Stars.

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Transcript of Chapter Twenty-Seven: Stars 27.1 The Sun 27.2 Stars 27.3 The Life Cycle of Stars.