Invisible sunspots uncovered

... Sunspots appear as dark patches on the Sun's photosphere. They were first observed by Chinese astronomers and later extensively studied by Galileo with the aid of a telescope. Their temperature is of approximately 4,000 degrees, lower than that of the surrounding photosphere (6,000 degrees). The bir ...

solution

... 7. According to Newton’s Laws, is there gravity on the moon? What about on Mars? How about within the space between the planets? According to Newton’s Laws (and all of the best observations scientists have made), there IS GRAVITY EVERYWHERE. This includes “empty” space. When you’re far from objects ...

Wednesday, November 5 - Otterbein University

... • Density and temperature increase towards center • Very hot & dense core produces all the energy by hydrogen nuclear fusion • Energy is released in the form of EM radiation and particles (neutrinos) • Energy transport well understood in physics ...

THE SUN - rgreenbergscience

... Mass of sphere gets larger and gigantic pressure in center Fusion reaction is sparked – hydrogen nuclei come together to create helium Resulting helium nuclei are slightly less massive than the component hydrogen nuclei The difference is converted o energy E=mc2 Most of the energy is gamma rays It t ...

Solar Interior

... Fluid becomes unstable to convection (which adiabatically mixes the fluid). Highly turbulent. Motion on large range of scales Temperature drops: from 2 x 106 K to 5,700 K. Density drops exponentially to 2 x 10-7 g cm-3 Convection visible at the surface (photosphere) as granules and supergranules (se ...

March/April 2015

... light is collected by a telescope and split up into a spectrum, any wavelengths that interacted with the atmosphere are not present and appear as black lines against the coloured background. As each element will only absorb specific wavelengths of light, each line is like a fingerprint letting us kn ...

SolarActivity

... • Some of the particles from a solar flare escape into space, increasing the strength of the solar wind. • Particles also escape as coronal mass ejections. The particles in the ejection can cause disturbances to Earth’s magnetic field. • These disturbances have been known to interfere with radio com ...

print version

... The orbits are nearly circular, but not quite, and the planets travel slightly faster while they are closer to the sun than when farther away (because of the increased gravitational attraction). ...

Solar System Scale

... visualize and scale models are usually distorted in textbooks so that they will fit on the page. Materials: meter sticks, 400 cm heavy string for each group, masking tape Procedures: Ask students to draw a picture of what they think the solar system looks like. This will help them get focused on the ...

Chapter 23 Our Solar System 8/13/2013 1

... atmosphere featureless &11,000 km thick. Axis is tilted almost 90 degrees. – Neptune: Its orbit was used to calculate the position and existence of Pluto, 5 vertical rings, Blue planet w/ atmosphere with visible changing clouds. Its largest moon is Triton which has retrograde revolution. – Pluto: La ...

File

...  Corona – upper layer – transparent.  Photosphere ...

Sun

...  Corona – upper layer – transparent.  Photosphere ...

Does the Sun rotate?

...  Corona – upper layer – transparent.  Photosphere ...

ASTRO EXAM AFTERNOON Review

... Prism splits beam because light rays of different wavelengths are bent (refracted) ...

The Sun - Tvining.us

... The average time required for a nucleus to undergo each step of this sequence in a typical stellar interior is indicated in the figure shown above. Thus, for example, a hydrogen nucleus waits on the average 1 billion years before it undergoes an interaction with another hydrogen nucleus to initiate ...

Space Science Chapter 4 Reading Guide BIG IDEA: Our Sun is

... Why is the photosphere often called the Sun’s surface? Why is the corona NOT normally visible? ...

Steve Tomczyk & Scott McIntosh - National Center for Atmospheric

... collaborates with HAO scientists to develop state-ofthe-art instruments for the observation of the Sun and the Earth’s upper atmosphere. Scott received his bachelors degree in Astronomy from Villanova University in 1979 and went on to graduate study at UCLA where he received his Ph.D. in 1988 workin ...

Science 5th Grade Pacing Chart

... (page 27) recommends using the more familiar term "weight" in the elementary grades with the distinction between mass and weight being introduced at the middle school level. In Ohio, students will not be assessed on the differences between mass and weight until Grade 6. Light and sound are forms of ...

The Sun`s Magnetic Field Twisting Magnetic Fields PRS: Sunspots

... to convert a significant fraction of mass into energy is nuclear fusion. • In the combining four hydrogen nuclei into a helium nucleus, almost 1% of the mass is released as energy. • If the Sun fuses all of the hydrogen in its core, it could burn for ~10 billion years at its current luminosity. ...

Looking for the siblings of the Sun

... meteorites, the Sun was polluted by a SN of star about 15-25 solar masses within a distance of 0.02-1.6 pc (Looney et al. 2006). - Star cluster where the Sun was born: M ~ 500-3000 ...

7 - Great Balls of Fire exhibit

... 4. Mars 5. Earth 6. Jupiter 7. Sun 8. Solar System 9. Galaxy 10. Cluster of galaxies Step 2: Offer Hints as Needed: Ask the students to respond to these hints before showing the solution, when offering help. You can give one or more hints as needed. Space Shuttle Hint: The length of the Space Shuttl ...

Layers of the Sun (~ 75% Hydrogen ~ 25% Helium)

... Solar energy is created deep within the core of the Sun. It is here that the temperature (15,000,000° C; 27,000,000° F) and pressure (340 billion times Earth's air pressure at sea level) is so intense that nuclear reactions take place. This reaction causes four protons or hydrogen nuclei to fuse tog ...

Video Universe Secrets of the Sun

... – The Secrets Headerof the Sun Follow along with the video and answer the questions. The questions are in order of their appearance in the show. ...

VII. Uranus - Napa Valley College

... — Size: a few hundred km across. — We see them because the hot interior is brighter than the cool borders. — Convection cells in the photosphere (Aside — Modes of heat transport 1. Conduction: heat transport through solids. (Not important in stars) 2. Convection — hot material moves from one place t ...

Lecture 12

... • Star moving away from us at 0.01 the speed of light emits a spectral line with a wavelength of 600 nanometers (nm). What is the observed wavelength of that line? ...

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Sun

The Sun (in Greek: Helios, in Latin: Sol) is the star at the center of the Solar System and is by far the most important source of energy for life on Earth. It is a nearly perfect spherical ball of hot plasma, with internal convective motion that generates a magnetic field via a dynamo process. Its diameter is about 109 times that of Earth, and it has a mass about 330,000 times that of Earth, accounting for about 99.86% of the total mass of the Solar System.About three quarters of the Sun's mass consists of hydrogen; the rest is mostly helium, with much smaller quantities of heavier elements, including oxygen, carbon, neon and iron.The Sun is a G-type main-sequence star (G2V) based on spectral class and it is informally referred to as a yellow dwarf. It formed approximately 4.567 billion years ago from the gravitational collapse of matter within a region of a large molecular cloud. Most of this matter gathered in the center, whereas the rest flattened into an orbiting disk that became the Solar System. The central mass became increasingly hot and dense, eventually initiating nuclear fusion in its core. It is thought that almost all stars form by this process. The Sun is roughly middle aged and has not changed dramatically for four billion years, and will remain fairly stable for another four billion years. However, after hydrogen fusion in its core has stopped, the Sun will undergo severe changes and become a red giant. It is calculated that the Sun will become sufficiently large to engulf the current orbits of Mercury, Venus, and possibly Earth.The enormous effect of the Sun on the Earth has been recognized since prehistoric times, and the Sun has been regarded by some cultures as a deity. Earth's movement around the Sun is the basis of the solar calendar, which is the predominant calendar in use today.

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