Presentation is loading. Please wait.

Presentation is loading. Please wait.

CH. 29.2 – Solar Activity CH. 29 - MARQUES. Terms to know…  Sunspot  Prominence  Granules  solar flare  coronal mass ejection  aurora.

Published byMoris Wheeler Modified over 9 years ago

Similar presentations

Presentation on theme: "CH. 29.2 – Solar Activity CH. 29 - MARQUES. Terms to know…  Sunspot  Prominence  Granules  solar flare  coronal mass ejection  aurora."— Presentation transcript:

1 CH. 29.2 – Solar Activity CH. 29 - MARQUES

2 Terms to know…  Sunspot  Prominence  Granules  solar flare  coronal mass ejection  aurora

3 Solar Activity  Sun rotates on its own axis  once per 27 days  Gases are in constant motion  Granules are just the grainy appearance of the sun and result from small temp/density differences.

4 Sunspots  Sunspots : areas of slower convection (high magnetism)  Vary in size...up to >7x the size of Earth! …showed scientists that the sun does rotate.

5 Sun Spot Cycle 1. Low # of sunspots (groups) begins to increase 2. Appear in groups halfway between equator and poles. 3. Higher latitude sunspots begin to disappear and new ones appear at/near the equator. 4. At approx. 11 years, the number of groups begins to increase again.

6 Solar Eruptions  Prominences: glowing HOT gas from chromosphere form arches with curved magnetic field lines. (lasts weeks or hours)  Solar Flares: sudden/violent/HOT/eruption of ions (e-, p+)  lasts minutes or an hour...  releases E stored in the magnetic fields from sunspots…  can form coronal loops.  Can reach temp of 20 mil o C!

7 Solar Eruptions Cont…  Coronal Mass Ejections: parts of the corona that get thrown off!  particles can strike and disturb Earth’s magnetosphere (geomagnetic storm)  can knock out power grids.

8 Solar Eruptions Cont…  Auroras: interaction of solar wind and the magnetosphere.  Mostly seen @ poles b/c that’s where magnetism is greatest.  Ions strike gas particles in our atmosphere, causing sheets of light.  Peak at the height of sunspot cycle, especially after flares. Why?  Northern lights (aurora borealis)  Southern lights (aurora australis)

Download ppt "CH. 29.2 – Solar Activity CH. 29 - MARQUES. Terms to know…  Sunspot  Prominence  Granules  solar flare  coronal mass ejection  aurora."

Similar presentations

What is the fate of our sun and other stars?

What is the fate of our sun and other stars?
Features of the Sun 6 th Grade. The Sun’s Composition.

Features of the Sun 6 th Grade. The Sun’s Composition.
The Sun – Describe characteristics of the Sun (S6C3PO2 high school)

The Sun – Describe characteristics of the Sun (S6C3PO2 high school)
Chapter 8 The Sun – Our Star.

Chapter 8 The Sun – Our Star.
The Sun Structure of the Sun & Solar Activity. Parts of the Sun Core: enormous pressure & high temperatures cause the fusion of hydrogen into helium.

The Sun Structure of the Sun & Solar Activity. Parts of the Sun Core: enormous pressure & high temperatures cause the fusion of hydrogen into helium.
Structure of the Sun & Solar Activity

Structure of the Sun & Solar Activity
Understanding Sunspots. What is a Sunspot? The Sun’s Visible Surface The Lower Atmosphere.

Understanding Sunspots. What is a Sunspot? The Sun’s Visible Surface The Lower Atmosphere.
Coronal Mass Ejection Also known as CME CMEs are huge bubbles of gas within magnetic field lines that are ejected from the Sun over the course of several.

Coronal Mass Ejection Also known as CME CMEs are huge bubbles of gas within magnetic field lines that are ejected from the Sun over the course of several.
The Sun’s Energy Composition of the Sun

The Sun’s Energy Composition of the Sun
Solar Rotation Lab 3. Differential Rotation The sun lacks a fixed rotation rate Since it is composed of a gaseous plasma, the rate of rotation is fastest.

Solar Rotation Lab 3. Differential Rotation The sun lacks a fixed rotation rate Since it is composed of a gaseous plasma, the rate of rotation is fastest.
The Sun. Sun Considered a medium STAR 93,000,000 miles away from Earth 1.39 million kilometers in diameter (one million Earths can fit inside the sun.

The Sun. Sun Considered a medium STAR 93,000,000 miles away from Earth 1.39 million kilometers in diameter (one million Earths can fit inside the sun.
EARTH & SPACE SCIENCE Chapter 29 The Sun 29.2 Solar Activity.

EARTH & SPACE SCIENCE Chapter 29 The Sun 29.2 Solar Activity.
The Sun a medium sized star 93,000,000 miles away 109 times diameter of Earth 1 million Earths could fit in the Sun Made of gas: 82% hydrogen, 17% helium,

The Sun a medium sized star 93,000,000 miles away 109 times diameter of Earth 1 million Earths could fit in the Sun Made of gas: 82% hydrogen, 17% helium,
THE SUN AND STARS And anything I want to put in here.

THE SUN AND STARS And anything I want to put in here.
The Sun Earth Science - Mr. Gallagher. The Sun is the Earth's nearest star. Similar to most typical stars, it is a large ball of hot electrically charged.

The Sun Earth Science - Mr. Gallagher. The Sun is the Earth's nearest star. Similar to most typical stars, it is a large ball of hot electrically charged.
Our Sun. Why do we care about the Sun... - Light, heat, life - Space weather solar wind (1,000,000 mph) flares (UV, x-ray radiation) disturb Earth's magnetic.

Our Sun. Why do we care about the Sun... - Light, heat, life - Space weather solar wind (1,000,000 mph) flares (UV, x-ray radiation) disturb Earth's magnetic.
The Sun Our Nearest Star. The Source of the Sun’s Energy The Source of the Sun’s Energy Fusion of light elements into heavier elements. Hydrogen converts.

The Sun Our Nearest Star. The Source of the Sun’s Energy The Source of the Sun’s Energy Fusion of light elements into heavier elements. Hydrogen converts.
Lesson 3.3: The Sun.

Lesson 3.3: The Sun.
Chapter 9 The Sun. 9.4 The Active Sun Sunspots: appear dark because slightly cooler than surroundings:

Chapter 9 The Sun. 9.4 The Active Sun Sunspots: appear dark because slightly cooler than surroundings:
The Sun.

The Sun.

Similar presentations

Ads by Google