| Mooncalf
Join Date: Aug 2008
Posts: 6,692
Hogwarts RPG Name:
Maya 'Fiera' Saylen
Graduated  x5
|  ♪ Golden Badger ♥ clawdia & taylour ♥ Huffie Cappytain ♫
Quote:
Originally Posted by Mistress Vondella  ooc: let me start off by saying that I've added an extra day on to this lab simply because I was unable to post the start of it last night. I am having computer issues with my laptop and now am sharing my dad's desktop with him and Mom....and getting on 3 days a week while at work. So if I'm a little slow to respond, please bear with me. I am not ignoring you, I am, however, about ready to throw the laptop out the window.
BIC:
Maidee smiled as her precious older students came into the class room. Maybe, just maybe, the Slytherins weren't all babies in need of coddling, and it was just the newbies. Yes. That must be it. And she still had all that left over candy, perhaps she'll let this class eat it while they work. Yes. They'd enjoy a little treat, Maidee thought.
"Welcome to our first lab lesson, ladies and gentlemen," she wouldn't demeen this group by calling them 'boys and girls' - unless, of course, their maturity level reflected that of her last group. "It isn't going to be very easy, but it's more hands-on and that is usually a bit more enjoyable, wot?"
She passed around the sheet of paper explaining this day's lab. (located here. )
"Okay then, I'll read the introduction and we'll get started,: SPOILER!!: I've copied it from the webpage, so you don't HAVE to read this if you don't like.
Where most people live on Earth, summers are hot and filled with many hours of strong sunlight, while winters are cold due to shortened hours of daylight and weak sunlight. You might think that the extreme heat of summer and the icy cold of winter have something to do with how close Earth is to the Sun, but actually, Earth's orbit is almost circular around the Sun, so there is very little difference in the distance from Earth to the Sun throughout the year. So, what are the reasons for the seasons, if it's not the distance from the Sun? One big part of the answer is that Earth is tilted on an axis.
What is an axis? Picture an imaginary stick going through the north and south poles of Earth. Earth rotates about this axis every 24 hours. However, this axis isn't straight up and down as Earth goes through its orbit about the Sun. Instead, it is tilted approximately 23 degrees. The degree of tilt varies by about 1.5 degrees every 41,000 years, which you can read more about in the Bibliography, below. We can thank our relatively big Moon for keeping this degree of tilt so stable. Without the influence of our Moon's gravity, the tilt would vary dramatically, like that of a wobbling top, resulting in rapidly changing seasons that would make it difficult for life to exist on Earth. Planetary scientists think that our relatively big Moon, and the axis tilt itself, were created by enormous collisions Earth experienced early in its formation 4.5 billion years ago.
How does the tilt of the axis create seasons? The tilt changes how the sunlight hits Earth at a given location. As shown in Figure 1, Earth's axis (the red line) remains fixed in space. It always points in the same direction, as Earth goes through its orbit around the Sun.
When it is summer in North America, the top part of the axis (the north pole) points in the direction of the Sun, and the Sun's rays shine directly on North America; while in South America, the axis is tipped away from the Sun and the Sun's rays hit Earth on a slant. So, when it is summer in North America, it is winter in South America. When it is winter in North America, the north pole is tipped away from the Sun, and the Sun's rays hit the Earth on a slant there; meaning it is summer in South America, because the Sun's rays hit Earth more directly in that hemisphere. As for the intermediate seasons, spring and fall, these are seasons when neither the top, nor the bottom, of Earth's axis are pointed in the direction of the Sun, days and nights are of equal length, and both the top half and the bottom half of Earth get equal amounts of light.
Slanted rays are weaker rays because they cover a larger area and heat the air and surface less than direct rays do. You can see this if you shine a flashlight on a large ball. If you point the flashlight directly at the ball, it makes a bright, circular spot on the ball; however, if your point the flashlight at the edge of the ball, the light makes a duller, more oval-looking spot on the ball. The same thing happens with Earth and the Sun—imagine the ball is Earth and the flashlight is the Sun. In this astronomy science fair project, you'll investigate how tilting a surface affects how light rays hit that surface.
If, for some reason, you do not have a ruler, protractor, or graph paper, I've got extras. And don't worry about the muggle 'flashlight' simply use 'lumos' with your wands. If, however, you want to have the muggle experience, I do have a few flashlights as well.
When you have read over the lab at least twice, you may begin." Twitch.
Oh man. This looked HARD. DIFFICULT. Like a pain in the- they had to use the rulers and stuff? Thank Merlin she was half Muggle, or Miranda would've probably have had to break the ruler in two to get help...or something.
Hm, and they had to work in teams? Urgh. Miranda hated this. Not because it wasn't fun to work in pairs, but because she was always left when the others had found a partner. No, no, it would just be good ol' lone working Badger for her. Yes, yes.
Allrighty. But before she started, Miranda read through the lab and the instructions two times more, just to get a clue of WHAT THE FLAPPERS SHE WAS SUPPOSED TO DO. Ay, ay, AY. |