Name Roy G Biv
Base your answers to questions 1 and 2 on the graph below and on your knowledge of Earth science. The graph shows the changes in ocean tide height at a New York State location during 1 day.
1. Determine the tide height and time of day for the lowest tide shown on the graph. Include a.m. or p.m. in your answer for the time of day
2. Explain why the Moon has a greater influence on Earth tides than the Sun.
Page 1 Base your answers to questions 3 through 7 on the calendar and data table below. The calendar shows the month of February 2007, indicating the dates when some lunar phases occurred. February 24 lists only the name of the Moon phase that occurred on that day. The data table shows the highest and lowest tides (in feet) recorded for the Hudson River at Kingston, New York, over a 2-day period in February 2007.
Page 2 3. On the grid above, plot the tide height for each time of day listed in the data table. Connect the plots with a line.
4. In the circle below, shade the part of the Moon that appeared dark to an observer in New York State on February 24.
5. State the date of the next full Moon that occurred after February 2.
Page 3 6. On the diagram below, draw a small circle (O) on the Moon's orbit to show the position of the Moon in its orbit on February 2.
7. Predict the time of the first high tide on Sunday, February 4. Include a.m. or p.m. in your answer.
8. Base your answer to the following question on the diagram below, which shows the Moon's orbit around Earth. Four positions of the Moon are represented by letters A, B, C, and D. Earth's North Pole is labeled. The shaded areas on Earth and the Moon represent night.
A total solar eclipse sometimes occurs when the Moon is at position A. Explain why a total solar eclipse does not occur every time the Moon is at position A.
Page 4 Base your answers to questions 9 through 12 on diagram below, which shows Earth as viewed from above the North Pole. The nighttime side of Earth has been shaded. The Moon is shown at eight positions in its orbit around Earth. The name of each Moon phase is indicated at each Moon position. The dark portion of each Moon position has not been shaded.
9. Explain what causes the Moon's phases when viewed from Earth.
10.On the diagram below, shade the portion of the Moon that is in darkness to show the last quarter phase as viewed from New York State.
11. Which Moon phase occurs approximately one week after the New Moon phase?
12. Explain why the same side of the Moon always faces Earth.
Page 5 13. Base your answer to the following question on the diagram below and on your knowledge of Earth Science. The diagram represents the Moon at eight numbered positions in its orbit around Earth. The nighttime sides of the Moon and Earth are shaded.
Explain why the Moon's orbital velocity is slowest when the Moon is farthest from Earth.
14. Base your answer to the following question on the diagram below. The diagram shows the Sun, Earth, and the Moon's orbit around Earth as viewed from space.
Approximately how many complete revolutions does the Moon make around Earth each month?
Page 6 15. Base your answer to the following question on the passage below.
The Moon Is Moving Away While Earth's Rotation Slows
Tides on Earth are primarily caused by the gravitational force of the Moon acting on Earth's surface. The Moon causes two tidal bulges to occur on Earth: the direct tidal bulge occurs on the side facing the Moon, and the indirect tidal bulge occurs on the opposite side of Earth. Since Earth rotates, the bulges are swept forward along Earth's surface. This advancing bulge helps pull the Moon forward in its orbit, resulting in a larger orbital radius. The Moon is actually getting farther away from Earth, at a rate of approximately 3.8 centimeters per year. The Moon's gravity is also pulling on the direct tidal bulge. This pulling on the bulge causes friction of ocean water against the ocean floor, slowing the rotation of Earth at a rate of 0.002 second per 100 years. In 100,00 years, the rotation of Earth will be slower by how many seconds?
16. Base your answer to the following question on on the information below about a solar eclipse that will occur on August 21, 2017. The latitude and longitude coordinates for the movement of the center of the Moon's shadow across the Earth's surface are given in the table.
The path of the Moon's shadow will be approximately 100 kilometers wide. On the graph now shade the area between positions 1 and 3 to show the width of the Moon's shadow on Earth.
Page 7 Base your answers to questions 17 and 18 on the reading passage below and on your knowledge of Earth science.
The Blue Moon
A "Blue Moon" is the name given to the second full moon in a calendar month. Because there are roughly 29.5 days between full moons, it is unusual for two full moons to "fit" into a 30 or 31 day month (and impossible to fit into a 28 or 29 day month, so February can never have a Blue Moon). The saying "Once in a Blue Moon" means a rare occurrence, and predates the current astronomical use of the term, which is quite recent. In fact, Blue Moons are not all that rare, on average there will be one Blue Moon every 2.5 years. After 1999, the next Blue Moons will be in November 2001; July 2004; and June 2007. The last one before 1999 was in July 1996. The term Blue Moon is believed to have originated in 1883 after the eruption of Krakatoa. The volcano put so much dust in the atmosphere that the Moon actually looked blue in color. This was so unusual that the term "once in a Blue Moon" was coined. "The Blue Moon"
David R. Williams
nssdc.gsfc.nasa.gov/planetary/lunar/blue_moon.html 17. Draw the relative positions of Earth, the Moon, and the Sun, as viewed from space, so that a full-Moon phase would be visible to an observer on Earth. Label Earth, the Moon, and the Sun in your drawing.
18. Explain why a Blue Moon never occurs during the month of February.
Page 8 19. Base your answer to the following question on the diagram below, which shows the Moon at positions A through H in its orbit around Earth.
Which letters represent the two positions of the Moon when the least difference between the levels of high and low ocean tides occur on Earth?
20. Base your answer to the following question on the diagram below, which shows the locations of high and low tides on Earth at a particular time.
Approximately how many hours will pass between high tide and the following low tide?
Page 9 Base your answers to questions 21 through 23 on the bar graph below and on the data table in your answer booklet. The bar graph shows the number of partial lunar eclipses that occurred during each of the last nine centuries (100-year intervals) on Earth. A partial lunar eclipse occurs when only part of the Moon is within the darkest part of Earth's shadow. The data table in your answer booklet shows the number of total lunar eclipses that occurred during the same nine centuries. A total lunar eclipse occurs when the entire Moon is completely within the darkest part of Earth's shadow.]
Page 10 20. On the grid, construct a bar graph of the number of total lunar eclipses for each 100-year interval listed on the data table in your answer booklet.
22. State the relationship between the number of partial lunar eclipses per century and the number of total lunar eclipses per century.
Page 11 23. On the diagram below, draw an X so the center of the X indicates the position of Earth during a lunar eclipse.
Base your answers to questions 24 and 25 on the diagram below, which shows the Moon at position 1 in its orbit around Earth. Numbers 2 through 8 represent other positions in the Moon's orbit.
24. How many days does it take the Moon to go from one full-Moon phase to the next full-Moon phase when viewed from Earth?
______days
Page 12 25. A solar eclipse could occur when the Moon is located at which numbered position?
______
Page 13 Answer Key moon practice
1. Tide height: 8. Examples: – 12. Examples: — 18. February has any value from The Moon's The Moon's only 28 or 29 0.58 m to 0.6 shadow misses rate of rotation days and a m. Earth. – The equals the complete cycle Time: any Moon orbits in Moon's rate of of the Moon value from a different revolution. — phases takes 8:30 p.m. to plane than The Moon 29.5 days. 9:00 p.m. Earth. – The completes one 19. C and G 2. — The Moon is Moon's orbit is spin on its axis tilted. – The in the same 20. any value from closer to Earth. 6 h to 6.25 h — The Moon's Moon's shadow amount of time gravitational does not reach it takes to 21. pull is stronger Earth. complete one because the 9. Examples: — orbit around Moon is closer Moon phases Earth. to Earth than are caused by 13. –The the Sun is. the Moon gravitational 22. — As the 3. revolving attraction number of around Earth. between the partial lunar — The Moon Moon and eclipses traveling Earth is least increases, the around Earth when they are number of total causes the farthest apart. lunar eclipses Moon to show –The force of decreases. — a cycle of gravity is less. The more 4. phases. — –Gra- partial lunar Different vitational eclipses there amounts of the attraction is are, the fewer 5. March 3 or lighted half of greater when March 4 total lunar the Moon are the Moon is eclipses there 6. seen from closer to Earth. are. — When Earth. 14. 1 or 1.1 the number of 10. Approximately revolution partial eclipses of the Moon 15. 2 seconds is high, the is shaded on number of total 7. from 2 a.m. to the right-hand 16. eclipses is low. 4 a.m. side. 23. 11. First quarter.
17.
24. 29 d to 30 d 25. 8