Write an explanation of your prediction about how lunar phases might be changed if the moon was hit by an asteroid & Write an explanation of your prediction about how Earth's seasons might be changed if an asteroid impact changed the tilt of the earths axis. Can someone help me with this? I know what I'm supposed to do but I'm just confused.
this didnt help
Well, dear confused human, let me put on my thinking cap and come up with some humorous explanations for you!
If the moon was hit by an asteroid, it would definitely throw a party in the sky! But how would this celestial shindig affect lunar phases? Picture it like this: the asteroid crashes into the moon, causing a lunar crater to form. Now, imagine that this crater is like a wild hairstyle for the moon. As the moon spins and moves around the Earth, this snazzy crater would cast funky shadows and create whimsical patterns on the moon's surface. So, you can expect some unconventional lunar phases, like a crescent moon wearing a mohawk or a full moon dawning a stylish top hat. It would be quite the cosmic fashion show!
Now, let's shift our attention to the Earth and its seasons. Ah, the asteroid has decided to play a game of bumper cars with our planet's axis. Oh dear, things are about to get wobbly! Similar to accidentally knocking over a Jenga tower, this asteroid impact would send the Earth's axis spinning and tilting in a new direction. As a result, our dear Earth would have a rather topsy-turvy time trying to figure out its seasons.
You see, the Earth's tilt is responsible for our seasons. But if the tilt changes, it's like the Earth suddenly forgot its dance moves. Winter might start busting out beach parties, spring might decide to bring blizzards, summer could bring pumpkin spice lattes, and fall might show up with a tropical heatwave. It would be a hilarious game of seasonal mix-ups!
So, my friend, if an asteroid decides to crash the party, be prepared for some uniquely groovy lunar phases and seasons that are as unpredictable as a clown doing stand-up comedy!
Of course, I'm here to help you understand. Let me break down the predictions for you:
1. Prediction about Lunar Phases if the Moon was hit by an asteroid:
When an asteroid collides with the Moon, the impact could have several effects on the Moon's rotation and its orbit around the Earth. To predict how this impact would affect the lunar phases, you would need to consider a few factors:
a) Changes in the Moon's Orbit: An asteroid impact could alter the Moon's orbit, potentially affecting its distance from Earth and the length of its orbital period. If the Moon's orbital period is modified, it will affect the timing of the lunar phases. However, accurately determining the specific changes in the Moon's orbit would require in-depth calculations and models.
b) Changes in Moon's Appearance: The impact might cause significant disruptions on the Moon's surface, such as craters or changes in topography. Depending on the location and magnitude of these changes, they could affect the way sunlight reflects off the Moon's surface, potentially altering its brightness and appearance during different lunar phases.
In summary, if the Moon were hit by an asteroid, it could potentially disrupt its orbit and cause changes in its appearance, which might alter the timing and appearance of the lunar phases. However, the precise details of these changes would require more specific calculations and observations.
2. Prediction about Earth's Seasons if an asteroid impact changed the tilt of the Earth's axis:
Earth's seasons are primarily determined by the tilt of its axis relative to its orbital plane around the Sun. If an asteroid impact were to significantly change the Earth's axial tilt, it would have a profound impact on the distribution of sunlight received by different parts of the Earth throughout the year.
a) Changes in Sunlight Distribution: The tilt of the Earth's axis causes the Sun's rays to strike different latitudes at varying angles throughout the year, resulting in the seasonal variations. If the axial tilt were substantially altered, the patterns of sunlight distribution would also shift. For example, locations that once experienced distinct seasons might have more moderate or erratic climate changes.
b) Impact on Seasonal Extremes: The Earth's axial tilt affects the intensity and duration of seasons, including the length of daylight hours and the angle at which sunlight strikes the surface. Changing the tilt could lead to altered seasonal extremes, potentially resulting in milder or more intense summers, winters, or other changes in the duration and intensity of the seasons.
In summary, if an asteroid impact were to significantly change the Earth's axial tilt, it would modify the distribution of sunlight across the planet, leading to different patterns of seasons. However, accurately predicting the specific changes would require detailed knowledge of the impact's magnitude and location, as well as calculations and modeling of the Earth's climatic and orbital dynamics.
Reading through the Unit would be Suggested, but this works to
Asteroid Impact Portfolio
For this portfolio, you will complete the following:
Complete a diagram or physical model that illustrates the lunar phase.
Written explanation of your prediction about how lunar phases might be changed if the moon was hit by an asteroid.
Complete a diagram or physical model that illustrates the causes of Earth’s seasons
Written explanation of your prediction about how the Earth’s seasons might be changed if an asteroid impact changed the tilt of the Earth’s axis.
Asteroid Impact Part 1: Review Unit 2 Lesson 9 for help with the Lunar phase. For step by step instructions, please review Unit 2 Lesson 9 page 16 of 16 for the Lunar phase.
Asteroid Impact Part 2: Review Unit 2 Lesson 10 for help with the Earth’s seasons. For step by step instructions, please review Unit 2 Lesson 10 page 5 of 6 for the Earth’s seasons.
Once you have completed the portfolio and are ready to submit, click on “Assessments”, then click on “Open Assessment” under portfolio.
Wuddup baby! take me out to dinner ;)
Great answer