Physical Science Astronomy: Eclipses Science and Mathematics Education Research Group Supported by UBC Teaching and Learning Enhancement Fund 2012-2014.

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Physical Science Astronomy: Eclipses Science and Mathematics Education Research Group Supported by UBC Teaching and Learning Enhancement Fund Department of Curriculum and Pedagogy FACULTY OF EDUCATION a place of mind

Eclipses

Question Title Eclipses I An eclipse occurs when one celestial body moves ______________ another, partially or fully obscuring it from view. A. next to B. in front of C. into the shadow of D. further away from the Sun than

Comments Answer: C Justification: An eclipse occurs when one celestial body is obscured by another celestial body. Having one celestial body move in front of another does not guarantee an eclipse, because determining whether the shadow of one object will fall on another depends on: the distance between the objects, the size of the objects, and the size of the light source. Comments Solution

Question Title Eclipses II Which option shows the correct order of the Sun, Moon and Earth during the solar and lunar eclipses? A. B. C. D. Solar Eclipse Lunar Eclipse

Comments Answer: B Justification: The name of an eclipse is given by the celestial body that is being obstructed from Earth’s view. During a solar eclipse the Sun’s light must be blocked by the Moon. During a lunar eclipse the light that would have reflected off of the Moon must be blocked by the Earth. It follows that: A solar eclipse must have the order Earth, Moon the Sun. A lunar eclipse must have the order Moon, Earth then Sun. Comments Solution Solar Eclipse Lunar Eclipse

Comments How we categorize eclipses is based on where you are observing the system from. We usually consider eclipses from our position on Earth. But it is possible to think of and name eclipses from other perspectives. For example, if you consider this diagram from the previous question but imagine you are on the Moon… Now how would you name these eclipses? Comments Extend Your Learning: Thought Experiment

Comments Extend Your Learning: Thought Experiment Terran Eclipse Solar Eclipse A partial solar eclipse seen from the moon GIF

Question Title Eclipses III Which phenomenon does the following statement describe? The Moon travels between the Sun and the Earth, blocking the Sun's light, briefly blacking the sky in the middle of the day. A. Lunar Eclipse B. Solar Eclipse C. Neither

Comments Answer: B Justification: When one celestial body moves in front of another, the event is called an eclipse. The type of eclipse depends on the celestial body that is obscured from view. In this case, because the Moon has moved in front of the Sun, obscuring it from view on Earth, we call it a Solar eclipse. Comments Solution

Question Title Eclipses IV Which phenomenon does the following statement describe? The Moon moves between the Sun and the Earth resulting in a moonless night. A. Lunar Eclipse B. Solar Eclipse C. Neither

Comments Answer: C Justification: This scenario describes the new moon, not a lunar eclipse. A lunar eclipse does not result in a moonless night. During a lunar eclipse the Moon moves through the Earth’s shadow, re-emerging on the other side. Additionally, the order of the planets in the scenario does not describe a lunar eclipse. If the Moon is to move through the Earth’s shadow, the Moon cannot possibly be between the Earth and the Sun. Comments Solution

Question Title Eclipses V A. Lunar Eclipse B. Solar Eclipse C. Neither Which phenomenon does the following statement describe? The Moon moves into the shadow of the Earth, briefly blocking the Sun’s light from reaching the Moon.

Comments Answer: A Justification: In this case, the Moon has moved into the shadow of the Earth, causing the Moon to be obstructed from our view. The name of an eclipse is given by the name of the of the object that is blocked from our view, in this case the Moon. Therefore, the scenario in question describes a lunar eclipse. Comments Solution

Question Title Extend Your Learning: Video Title: Solar Eclipse

Question Title Extend Your Learning: Video Title: Lunar Eclipse

Question Title Extend Your Learning: Video Title: Turning the Moon Red - NASA

Question Title Eclipses VI A. Umbra = B 2 Penumbra = B 1 B. Umbra = B 1, B 2, Penumbra = A C. Umbra = A, Penumbra = B 1 B 2 D. Umbra = B 1, Penumbra = B 2 Given that in Latin the word umbra means “shadow” and paene means “almost, nearly”, correctly identify the umbra and the penumbra on the diagram below. B1B1 A B2B2 Light Source Blocking Object

Comments Answer: C Justification: The umbra refers to the “shadow” or an area where no light from the source exists. In the diagram area A refers to the Umbra. The penumbra refers to the “almost shadow”, or an area where not all of the light from the source is blocked. In the diagram areas B 1 and B 2 are the Penumbra. Comments Solution

Question Title Eclipses VII How would an observer see the light source if they where located at point C? C A. B. C. D. B A B

Comments Answer: A Justification: The observer at point C is not within the shadow of the object, however the object does block a large portion of the light emitted from the source, from reaching the observer. All of the light from the interior of the circle is blocked but the outside edges will still appear, this sort of eclipse is called an annular eclipse. Comments Solution

Question Title Eclipses VIII (Difficult) Which of the following changes could increase the frequency of “total solar eclipses”? A.Increase the angle of inclination between the ecliptic plane and the Moon’s orbit B.Decrease the radius of the Moon’s orbit C.Increase the size of the Sun D.Decrease the size of the Earth

Comments Answer: B Justification: In order for you to experience a total solar eclipse, the place where you are located on the Earth’s surface must be entirely in the shadow of the Moon. By decreasing the radius of the Moon’s orbit we are increasing the size of the shadow of the Moon, available to the Earth. This increases the chances that the Moon’s shadow will lie fully on the surface of the Earth. Comments Solution

Comments Solution ` Increase the angle of inclination: Increase the Size of the Sun: Decrease the Size of the Earth:

Question Title Eclipses IX (Difficult) Which of the following changes could decrease the frequency of “total lunar eclipses”? A.Increase the angle of inclination between the ecliptic plane and the Moon’s orbit B.Decrease the radius of the Moon’s Orbit C.Decrease the size of the Sun D.Increase tilt of the Earth’s axis

Comments Answer: A Justification: In order for you to experience a total lunar eclipse, the Moon must be positioned inside the shadow of the Earth. By increasing the angle of inclination between the ecliptic plane and the lunar orbit we decrease the amount of time the Moon spends in line with the ecliptic plane. This decreases the chances of a lunar eclipse occurring. Comments Solution

Comments Solution ` Decrease the Radius of the Moon’s orbit: Decrease the Size of the Sun: Increase tilt of the Earth’s axis

Question Title Eclipses IX Given that for an eclipse to occur, the Moon must be in line with the ecliptic, approximately how many eclipses happen per year? A.1 B.2 C.4 D.Less than one

Comments Take a moment to explore this diagram before reading further for the explanation. Comments Solution

Comments Answer: C Justification: The Sun and the Earth are in the same plane (the ecliptic plane). Because the Moon orbits around the Earth, its trajectory will intersect the ecliptic in two places. When the points of intersection are such that Earth Moon and Sun can be connected with a straight line, an eclipse can occur. Comments Solution Point 1 Point 2

Comments The Moon orbits around the Earth, and the Earth orbits around the Sun, so the Moon’s orbit is also in orbit about the sun. This means the points where the Moon’s orbit intersects the ecliptic plane in the correct way for the eclipses to occur happens twice every Earth year. How many eclipses occur during each year? Each opportunity for eclipse results in one lunar and one solar eclipse. Because a year is much longer than a month, the Moon has time to complete half an orbit around the Earth while in the zone favourable for eclipses, resulting in four eclipses per year. Comments Solution