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New York Regents Earth Science June 2016 Exam

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P.S./EARTH SCIENCE The University of the State of New York REGENTS HIGH SCHOOL EXAMINATION PHYSICAL SETTING EARTH SCIENCE Friday, June 17, 2016 9:15 a.m. to 12:15 p.m., only The possession or use of any communications device is strictly prohibited when taking this examination. If you have or use any communications device, no matter how briefly, your examination will be invalidated and no score will be calculated for you. Use your knowledge of Earth science to answer all questions in this examination. Before you begin this examination, you must be provided with the 2011 Edition Reference Tables for Physical Setting/Earth Science. You will need these reference tables to answer some of the questions. You are to answer all questions in all parts of this examination. You may use scrap paper to work out the answers to the questions, but be sure to record your answers on your answer sheet and in your answer booklet. A separate answer sheet for Part A and Part B 1 has been provided to you. Follow the instructions from the proctor for completing the student information on your answer sheet. Record your answers to the Part A and Part B 1 multiple-choice questions on this separate answer sheet. Record your answers for the questions in Part B 2 and Part C in your separate answer booklet. Be sure to fill in the heading on the front of your answer booklet. All answers in your answer booklet should be written in pen, except for graphs and drawings, which should be done in pencil. When you have completed the examination, you must sign the declaration printed on your separate answer sheet, indicating that you had no unlawful knowledge of the questions or answers prior to the examination and that you have neither given nor received assistance in answering any of the questions during the examination. Your answer sheet and answer booklet cannot be accepted if you fail to sign this declaration. Notice . . . A four-function or scientific calculator and a copy of the 2011 Edition Reference Tables for Physical Setting/Earth Science must be available for you to use while taking this examination. DO NOT OPEN THIS EXAMINATION BOOKLET UNTIL THE SIGNAL IS GIVEN. P.S./EARTH SCIENCE Part A Answer all questions in this part. Directions (1 35): For each statement or question, choose the word or expression that, of those given, best completes the statement or answers the question. Some questions may require the use of the 2011 Edition Reference Tables for Physical Setting/Earth Science. Record your answers on your separate answer sheet. 6 The photograph below shows a Foucault pendulum at a museum. The pendulum knocks over pins in a regular pattern as it swings back and forth. 1 Earth s approximate rate of revolution is (1) 1 per day (3) 180 per day (2) 15 per day (4) 360 per day 2 Planetary winds in the Northern Hemisphere are deflected to the right due to the (1) Doppler effect (2) Coriolis effect (3) tilt of Earth s axis (4) polar front jet stream 3 Which star is hotter, but less luminous, than Polaris? (1) Deneb (3) Sirius (2) Aldebaran (4) Pollux 4 Which statement best explains why Earth and the other planets of our solar system became layered as they were being formed? (1) Gravity caused less-dense material to move toward the center of each planet. (2) Gravity caused more-dense material to move toward the center of each planet. (3) Materials that cooled quickly stayed at the surface of each planet. (4) Materials that cooled slowly stayed at the surface of each planet. This pendulum movement, and the pattern of knocked-over pins, is evidence of Earth s (1) nearly spherical shape (2) gravitational attraction to the Sun (3) rotation on its axis (4) nearly circular orbit around the Sun 7 Earth s early atmosphere contained carbon dioxide, sulfur dioxide, hydrogen, nitrogen, water vapor, methane, and ammonia. These gases were present in the atmosphere primarily because (1) radioactive decay products produced in Earth s core were released from Earth s surface (2) evolving Earth life-forms produced these gases through their activity (3) Earth s growing gravitational field attracted these gases from space (4) volcanic eruptions on Earth s surface released these gases from the interior 5 Which conditions on Earth s surface will allow for the greatest amount of water to seep into the ground? (1) gentle slope and permeable (2) gentle slope and impermeable (3) steep slope and permeable (4) steep slope and impermeable P.S./E. Sci. June 16 [2] 11 What is the relative humidity if the dry-bulb temperature is 16 C and the wet-bulb temperature is 10 C? (1) 45% (3) 14% (2) 33% (4) 4% 8 The diagram below represents the apparent positions of the Big Dipper, with respect to Polaris, as seen by an observer in New York State at midnight on the first day of summer and on the first day of winter. 12 The table below shows the air temperature and dewpoint at each of four locations, A, B, C, and D. Summer Polaris Location A B C D Air temperature ( F) 80 60 45 35 Dewpoint ( F) 60 43 35 33 Based on these measurements, which location has the greatest chance of precipitation? (1) A (3) C (2) B (4) D Winter The change in the apparent position of the Big Dipper between the first day of summer and the first day of winter is best explained by Earth (1) rotating for 12 hours (2) rotating for 1 day (3) revolving for 6 months (4) revolving for 1 year 13 Which type of electromagnetic radiation has the shortest wavelength? (1) ultraviolet (3) radio waves (2) gamma rays (4) visible light 14 Which gas is considered a major greenhouse gas? (1) methane (3) oxygen (2) hydrogen (4) nitrogen 9 The weather station model shown below indicates that winds are coming from the 15 The diagram below represents Earth and the Sun s incoming rays. Letters A, B, C, and D represent locations on Earth s surface. (1) (2) (3) (4) North Pole southeast at 10 knots northwest at 10 knots southeast at 20 knots northwest at 20 knots A B C D 10 Which type of air mass most likely has high humidity and high temperature? (1) cP (3) mT (2) cT (4) mP P.S./E. Sci. June 16 Sun s rays Which two locations are receiving the same intensity of insolation? (1) A and B (3) C and D (2) B and C (4) D and B [3] [OVER] 20 What are the inferred pressure and temperature at the boundary of Earth s stiffer mantle and outer core? (1) 1.5 million atmospheres pressure and an interior temperature of 4950 C (2) 1.5 million atmospheres pressure and an interior temperature of 6200 C (3) 3.1 million atmospheres pressure and an interior temperature of 4950 C (4) 3.1 million atmospheres pressure and an interior temperature of 6200 C 16 Most of the sand that makes up the sandstone found in New York State was originally deposited in which type of layers? (1) tilted (3) faulted (2) horizontal (4) folded 17 The map below shows the current location of New York State in North America. 21 A seismic P-wave is recorded at 2:25 p.m. at a seismic station located 7600 kilometers from the epicenter of an earthquake. At what time did the earthquake occur? (1) 2:05 p.m. (3) 2:14 p.m. (2) 2:11 p.m. (4) 2:36 p.m. New York State 22 A seismic station recorded the P-waves, but no S-waves, from an earthquake because S-waves were (1) absorbed by Earth s outer core (2) transmitted only through liquids (3) weak and detected only at nearby locations (4) not produced by this earthquake Approximately how many million years ago (mya) was this New York State region located at the equator? (1) 59 mya (3) 359 mya (2) 119 mya (4) 458 mya 23 The Catskills of New York State are best described as a plateau, while the Adirondacks are best described as mountains. Which factor is most responsible for the difference in landscape classification of these two regions? (1) climate variations (3) vegetation type (2) bedrock structure (4) bedrock age 18 Many scientists infer that one cause of the mass extinction of dinosaurs and ammonoids that occurred approximately 65.5 million years ago was (1) tectonic plate subduction of most of the continents (2) an asteroid impact that resulted in climate change (3) a disease spreading among many groups of organisms (4) severe damage produced by worldwide earthquakes 24 An elongated hill that is composed of unsorted sediments deposited by a glacier is called (1) a delta (3) a sand dune (2) a drumlin (4) an outwash plain 25 Which rock was subjected to intense heat and pressure but did not solidify from magma? (1) sandstone (3) gabbro (2) schist (4) rhyolite 19 During which geologic epoch do scientists infer that the earliest grasses first appeared on Earth? (1) Holocene (3) Oligocene (2) Pleistocene (4) Eocene P.S./E. Sci. June 16 [4] 28 The cross section below represents a portion of a meandering stream. Points X and Y represent two positions on opposite sides of the stream. 26 The map below shows a stream drainage pattern where the streams radiate outward from the center. Stream surface Y Depth X Based on the cross section, which map of a meandering stream best shows the positions of points X and Y? Which landscape feature would produce this stream drainage pattern? (1) steep cliff (3) volcanic mountain (2) glacial kettle lake (4) flat plain X Y 27 The map below shows the area that, at one time, was covered by ancient Lake Bonneville. Evidence of ancient shorelines indicates that, near the end of the last ice age, Lake Bonneville existed in western Utah and eastern Nevada. The Great Salt Lake in Utah is a remnant of the former Lake Bonneville. X Y (1) X Nevada (3) Y Great Salt Lake X Lake Bonneville Y Utah (2) 29 When wind and running water gradually decrease in velocity, the transported sediments are deposited (1) all at once, and are unsorted (2) all at once, and are sorted by size and density (3) over a period of time, and are unsorted (4) over a period of time, and are sorted by size and density Which material that was formerly on the bottom of Lake Bonneville is most likely exposed on the land surface today? (1) folded metamorphic bedrock (2) flat-lying evaporite deposits (3) coarse-grained coal beds (4) fine-grained layers of volcanic lava P.S./E. Sci. June 16 (4) [5] [OVER] 30 The graph below shows ocean water levels for a shoreline location on Long Island, New York. The graph also indicates the dates and times of high and low tides. Long Island Tides Low Water Level (ft) 3 High Low High Low High 2 1 0 1 2 9 10 11 12 1 2 3 4 5 6 7 8 9 10 11 12 1 2 3 4 5 6 7 8 9 10 11 12 1 2 3 4 5 6 7 8 9 10 11 12 1 2 3 Midnight Noon a.m. Midnight p.m. July 12 a.m. Time (h) Noon p.m. July 13 Based on the data, the next high tide occurred at approximately (1) 4 p.m. on July 13 (3) 4 p.m. on July 14 (2) 10 p.m. on July 13 (4) 10 p.m. on July 14 31 Which diagram best represents heat transfer mainly by the process of conduction? Atoms in metal rod vibrating Cold window Flame Hot radiator (3) (1) Asthenosphere Sun Stiffer mantle Earth (2) P.S./E. Sci. June 16 (4) [6] 32 The diagram below represents the position of Earth in its orbit and the position of a comet in its orbit around the Sun. Orbit of Earth Orbit of a comet Earth Sun Comet (Not drawn to scale) Which inference can be made about the comet s orbit, when it is compared to Earth s orbit? (1) Earth s orbit and the comet s orbit have the same distance between foci. (2) Earth s orbit has a greater distance between foci than the comet s orbit. (3) The comet s orbit has one focus, while Earth s orbit has two foci. (4) The comet s orbit has a greater distance between foci than Earth s orbit. 33 Which sequence of geologic events is in the correct order, from oldest to most recent? (1) oceanic oxygen begins to enter the atmosphere earliest stromatolites initial opening of the Iapetus Ocean dome-like uplift of the Adirondack region begins (2) dome-like uplift of the Adirondack region begins initial opening of the Iapetus Ocean oceanic oxygen begins to enter the atmosphere earliest stromatolites (3) initial opening of the Iapetus Ocean earliest stromatolites oceanic oxygen begins to enter the atmosphere dome-like uplift of the Adirondack region begins (4) earliest stromatolites oceanic oxygen begins to enter the atmosphere initial opening of the Iapetus Ocean dome-like uplift of the Adirondack region begins P.S./E. Sci. June 16 [7] [OVER] 34 The cross section of the atmosphere below represents the air motion near two frontal boundaries along reference line XY on Earth s surface. Warm moist air Cold dry air X Chicago Cool air Y Detroit Buffalo Utica ( Not drawn to scale) Which weather map correctly identifies these fronts and indicates the direction that these fronts are moving? L L Utica Detroit X Y Utica Buffalo Detroit X Chicago (3) L L Utica X Y Utica Buffalo Detroit X Chicago (2) P.S./E. Sci. June 16 Buffalo Chicago (1) Detroit Y Chicago (4) [8] Buffalo Y 35 Which block diagram represents the plate motion that causes the earthquakes that occur along the San Andreas Fault in California? Key Continental crust Oceanic crust Mantle Earthquake Direction of plate movement Sea level (1) (3) (2) (4) Sea level P.S./E. Sci. June 16 [9] [OVER] Part B 1 Answer all questions in this part. Directions (36 50): For each statement or question, choose the word or expression that, of those given, best completes the statement or answers the question. Some questions may require the use of the 2011 Edition Reference Tables for Physical Setting/Earth Science. Record your answers on your separate answer sheet. Base your answers to questions 36 through 39 on the map and the passage below and on your knowledge of Earth science. The map shows four different locations in India, labeled A, B, C, and D, where vertical sticks were placed in the ground on the same clear day. The locations of two cities in India are also shown. 70 E 80 E 90 E A B 30 N Cherrapunji INDIA Tropic of Cancer C 20 N Mumbai D 10 N Monsoons in India A monsoon season is caused by a seasonal shift in the wind direction, which produces excessive rainfall in many parts of the world, most notably India. Cherrapunji, in northeast India, received a record 30.5 feet of rain during July 1861. During the monsoon season from early June into September, Mumbai, India averages 6.8 feet of rain. Mumbai s total average rainfall for the other eight months of the year is only 3.9 inches. Monsoons are caused by unequal heating rates of land and water. As the land heats throughout the summer, a large low-pressure system forms over India. The heat from the Sun also warms the surrounding ocean waters, but the water warms much more slowly. The cooler air above the ocean is more dense, creating a higher air pressure relative to the lower air pressure over India. P.S./E. Sci. June 16 [10] 36 At which map location would no shadow be cast by the vertical stick at solar noon on the first day of summer? (1) A (3) C (2) B (4) D 37 Which map shows both the dominant air pressure system that forms over India in the summer and the direction of surface winds around this air pressure system? [High pressure = H, Low pressure = L] 80 E 70 E 90 E 70 E 80 E 90 E 30 N INDIA Cherrapunji L Mumbai Tropic of Cancer 20 N 30 N INDIA Mumbai Cherrapunji H 10 N 10 N (1) 80 E 70 E (3) 70 E 90 E 80 E 90 E 30 N INDIA Mumbai L Tropic of Cancer 20 N Cherrapunji Tropic of Cancer 20 N 30 N INDIA Mumbai Cherrapunji H 10 N Tropic of Cancer 20 N 10 N (2) (4) 38 The unequal heating rates of India s land and water are caused by (1) land having a higher density than water (2) water having a higher density than land (3) land having a higher specific heat than water (4) water having a higher specific heat than land 39 Which processes lead to cloud formation when humid air rises over India? (1) compression, warming to the dewpoint, and condensation (2) compression, warming to the dewpoint, and evaporation (3) expansion, cooling to the dewpoint, and condensation (4) expansion, cooling to the dewpoint, and evaporation P.S./E. Sci. June 16 [11] [OVER] Base your answers to questions 40 through 42 on the diagram below and on your knowledge of Earth science. The diagram represents the apparent path of the Sun across the sky at a New York State location on June 21. Point A represents the position of the noon Sun. Points A and B on the path are 45 degrees apart. Sun s apparent path A B South North 40 How many hours (h) will it take for the apparent position of the Sun to change from point A to point B? (1) 1 h (3) 3 h (2) 2 h (4) 4 h 41 Compared to the Sun s apparent path on June 21, the Sun s apparent path on December 21 at this location will (1) be shorter, and the noon Sun will be lower in the sky (2) be longer, and the noon Sun will be higher in the sky (3) remain the same length, and the noon Sun will be lower in the sky (4) remain the same length, and the noon Sun will be higher in the sky 42 Which diagram represents the correct position of Polaris as viewed from this New York State location on a clear night? Sun s apparent path Sun s apparent path A A B South South North North (1) Sun s apparent path Polaris B Polaris (3) Sun s apparent path Polaris A A B B Polaris South South North (4) (2) P.S./E. Sci. June 16 North [12] Base your answers to questions 43 and 44 on the diagram below and on your knowledge of Earth science. The diagram represents the water cycle. Letters A through C represent different processes in the water cycle. C C C B A C A C n ea Oc (Not drawn to scale) 43 In order for process A to occur, liquid water must (1) gain 334 Joules per gram (3) lose 334 Joules per gram (2) gain 2260 Joules per gram (4) lose 2260 Joules per gram 44 Which process is represented by letter B? (1) capillarity (2) transpiration P.S./E. Sci. June 16 (3) infiltration (4) precipitation [13] [OVER] Base your answers to questions 45 through 47 on the photograph below and on your knowledge of Earth science. The photograph shows a small waterfall located on the Tug Hill Plateau. Rock ledge 45 During which geologic time period was the surface bedrock at this location formed? (1) Cretaceous (3) Devonian (2) Triassic (4) Ordovician 46 Compared to the bedrock layers above and below the rock ledge shown at the waterfall, the characteristic that is primarily responsible for the existence of the rock ledge is its greater (1) resistance to weathering (3) thickness (2) abundance of fossils (4) age 47 Rock fragments that are tumbled and carried over long distances by this stream are most likely becoming (1) less dense, harder, and smaller (3) more dense, angular, and smaller (2) less rounded, jagged, and larger (4) more rounded, smoother, and smaller P.S./E. Sci. June 16 [14] Base your answers to questions 48 through 50 on the rock columns below and on your knowledge of Earth science. The rock columns represent four widely separated locations, W, X, Y, and Z. Numbers 1, 2, 3, and 4 represent fossils. The rock layers have not been overturned. Location W . . . . . . . . . Brown . . . . .2 . siltstone . . . Red sandstone 1 Black shale 4 Gray limestone 2 4 Tan sandstone Location X Location Y Tan limestone . . . . . . . . . Brown . .2 . . . . siltstone Red sandstone 1 1 Black shale 4 Gray limestone 4 Tan sandstone . . . . . . . . . Gray . 4 . . . . . siltstone Black shale Green shale Gray limestone Location Z Gray conglomerate 3 Tan limestone . . . . . . . . . . . . Brown . . . siltstone . . . Red sandstone 1 Black shale 48 Which numbered fossil best represents an index fossil? (1) 1 (3) 3 (2) 2 (4) 4 49 Which rock layer is the oldest? (1) tan sandstone (2) gray limestone (3) green shale (4) black shale 50 Which rock layer formed from the deposition of land-derived sediments that had a uniform particle size of about 0.01 cm in diameter? (1) brown siltstone (3) gray conglomerate (2) black shale (4) red sandstone P.S./E. Sci. June 16 [15] [OVER] Part B 2 Answer all questions in this part. Directions (51 65): Record your answers in the spaces provided in your answer booklet. Some questions may require the use of the 2011 Edition Reference Tables for Physical Setting/Earth Science. Base your answers to questions 51 through 53 on the data table below and on your knowledge of Earth science. The data table lists four constellations in which star clusters are seen from Earth. A star cluster is a group of stars near each other in space. Stars in the same cluster move at the same velocity. The length of the arrows in the table represents the amount of redshift of two wavelengths of visible light emitted by these star clusters. Data Table Constellation in which star cluster is seen from Earth Redshift of two wavelengths of light absorbed by calcium Distance from Velocity of star cluster Earth moving away from Earth (billion light years) (km/s) Ursa Major Violet Red 1.0 15,000 Corona Borealis Violet Red 1.4 22,000 Bootes Violet Red 2.5 39,000 Hydra Violet Red 4.0 61,000 Note: One light year is the distance light travels in one year. 51 Describe the evidence shown by the light from these star clusters that indicates that these clusters are moving away from Earth. [1] 52 Write the chemical symbol for the element, shown in the table, that absorbs the two wavelengths of light. [1] 53 Identify the name of the nuclear process that is primarily responsible for producing energy in stars. [1] P.S./E. Sci. June 16 [16] Base your answers to questions 54 through 57 on the diagram below and on your knowledge of Earth science. The diagram represents the Moon in eight positions in its orbit around Earth. One position is labeled A. North Pole A Sun s rays Earth (Not drawn to scale) 54 In your answer booklet, circle the type of eclipse that may occur when the Moon is at position A. Explain why this type of eclipse may occur when the Moon is at this position. [1] 55 The diagram below represents one phase of the Moon as observed from New York State. On the diagram in your answer booklet, place an X on the Moon s orbit to represent the Moon s position when this phase was observed. [1] 56 State the number of days needed for the Moon to show a complete cycle of phases from one full Moon to the next full Moon when viewed from New York State. [1] 57 Explain why the Moon s revolution and rotation cause the same side of the Moon to always face Earth. [1] P.S./E. Sci. June 16 [17] [OVER] Base your answers to questions 58 through 61 on the weather map in your answer booklet and on your knowledge of Earth science. The weather map shows atmospheric pressures, recorded in millibars (mb), at locations around a low-pressure center (L) in the eastern United States. Isobars indicate air pressures in the western portion of the mapped area. Point A represents a location on Earth s surface. 58 On the weather map in your answer booklet, draw the 1012 millibar and the 1008 millibar isobars. Extend the isobars to the east coast of the United States. [1] 59 Identify the weather instrument that was used to measure the air pressures recorded on the map. [1] 60 Identify the compass direction toward which the center of the low-pressure system will move if it follows a typical storm track. [1] 61 Convert the air pressure at location A from millibars to inches of mercury. [1] Base your answers to questions 62 through 65 on the graph below and on your knowledge of Earth science. The graph shows the rate of decay of the radioactive isotope carbon-14 (14C). Decay of Carbon-14 Radioactive Carbon-14 (%) 100 75 50 25 0 0 5.7 11.4 17.1 22.8 28.5 Time (x 103 yr) 62 Complete the flow chart in your answer booklet by filling in the boxes to indicate the percentage of carbon-14 remaining and the time that has passed at the end of each half-life. [1] 63 Identify the decay product formed by the disintegration of carbon-14. [1] 64 Explain why carbon-14 cannot be used to accurately determine the age of organic remains that are 1,000,000 years old. [1] 65 State the name of the radioactive isotope that has a half-life that is approximately the same as the estimated time of the origin of Earth. [1] P.S./E. Sci. June 16 [18] Part C Answer all questions in this part. Directions (66 85): Record your answers in the spaces provided in your answer booklet. Some questions may require the use of the 2011 Edition Reference Tables for Physical Setting/Earth Science. Base your answers to questions 66 through 69 on the graph below and on your knowledge of Earth science. The graph shows changes in hours of daylight during the year at the latitudes of 0 , 30 N, 50 N and 60 N. Length of Daylight (h) 60 N 50 N 16 24 20 16 30 N 12 8 0 0 0 30 N N 50 N 60 30 N 50 N 60 N 4 0 12 8 Length of Daylight (h) December 21 20 September 22 March 20 24 June 21 Length of Daylight During the Year 4 Jan Feb Mar Apr May Jun Jul Month Aug Sep Oct Nov Dec 0 66 Estimate the number of daylight hours that occur on January 1 at 40 N latitude. [1] 67 Identify the latitude shown on the graph that has the earliest sunrise on June 21. Include the units and compass direction in your answer. [1] 68 Explain why all four latitudes have the same number of hours of daylight on March 20 and September 22. [1] 69 The graph in your answer booklet shows a curve for the changing length of daylight over the course of one year that occurs for an observer at 50 N latitude. On this same graph in your answer booklet, draw a line to show the changing length of daylight over the course of one year that occurs for an observer at 50 S latitude. [1] P.S./E. Sci. June 16 [19] [OVER] Base your answers to questions 70 through 74 on the passage and data tables below, on the map in your answer booklet, and on your knowledge of Earth science. The data tables show trends (patterns) of two lines of Hawaiian island volcanoes, the Loa trend and the Kea trend. For these trends, ages and distances of the Hawaiian island volcanoes are shown. The map shows the locations of volcanoes, labeled with Xs, that make up each trend line. Hawaiian Volcano Trends The Hawaiian volcanic island chain, located on the Pacific Plate, stretches over 600 kilometers. This chain of large volcanoes has grown from the seafloor to heights of over 4000 meters. Geologists have noted that there appear to be two lines, or trends, of volcanoes one that includes Mauna Loa and one that includes Mauna Kea. Loihi and Kilauea are the most recent active volcanoes on the two trends shown on the map. Loa Trend Loa Trend Volcanoes Kea Trend Volcano Age Distance from (million years) Loihi (km) Kea Trend Volcanoes Volcano Age Distance from (million years) Kilauea (km) Kauai 4.6 575 East Molokai 1.7 256 Waianae 3.7 465 West Maui 1.5 221 Koolau 2.2 375 Haleakala 0.9 182 West Molokai 1.7 350 Kohala 0.5 100 Lanai 1.2 300 Mauna Kea 0.4 54 Kahoolawe 1.1 250 Kilauea 0.1 0 Hualalai 0.3 130 Mauna Loa 0.2 70 0 0 Loihi 70 The average distance between the volcanoes along the Kea trend is 51.2 kilometers. Place an X on the map in your answer booklet to identify the location on the seafloor where the next volcano will most likely form as a part of the Kea trend. [1] 71 Identify the two volcanoes, one from each trend, that have the same age. [1] 72 State the general relationship between the age of the volcanoes and the distance from Loihi. [1] 73 Identify the tectonic feature beneath the moving Pacific Plate that caused volcanoes to form in both the Loa and Kea trends. [1] 74 Identify the compass direction in which the Pacific Plate has moved during the last 4.6 million years. [1] P.S./E. Sci. June 16 [20] Base your answers to questions 75 through 79 on the topographic map in your answer booklet and on your knowledge of Earth science. Lines AB and CD are reference lines on the map. Letter E indicates a location in a stream. 75 On the map in your answer booklet, draw an X on the location with the highest elevation. [1] 76 Using the grid in your answer booklet, construct a topographic profile along line AB by plotting the elevation of each contour line that crosses line AB. Points A and B have already been plotted on the grid. Connect all plots with a line from A to B to complete the profile. [1] 77 Calculate the gradient along line CD. [1] 78 Describe how the contour lines indicate the direction in which Buck River flows. [1] 79 Determine the velocity of the stream at location E where the largest particle being carried at location E has a diameter of 10.0 centimeters. [1] Base your answers to questions 80 through 83 on the passage below and on your knowledge of Earth science. Dimension Stone: Granite Dimension stone is any rock mined and cut for specific purposes, such as kitchen countertops, monuments, and the curbing along city streets. Examples of rock mined for use as dimension stone include limestone, marble, sandstone, and slate. The most important dimension stone is granite; however, not all dimension stone sold as granite is actually granite. Two examples of such rock sold as granite are syenite and anorthosite. Syenite is a crystalline, light-colored rock composed primarily of potassium feldspar, plagioclase feldspar, biotite, and amphibole, while anorthosite is composed almost entirely of plagioclase feldspar. Like actual granite, both syenite and anorthosite have large, interlocking crystals. 80 Explain why syenite is classified as a plutonic igneous rock. [1] 81 State one reason why anorthosite is likely to be white to gray in color. [1] 82 The igneous rock gabbro is sometimes sold as black granite. Compared to the density and composition of granite, describe how the density and composition of gabbro are different. [1] 83 Identify one dimension stone mentioned in the passage that is composed primarily of calcite. [1] P.S./E. Sci. June 16 [21] [OVER] Base your answers to questions 84 and 85 on the map of Australia below and on your knowledge of Earth science. Points A through D on the map represent locations on the continent. Map of Australia Papua New Guinea Indonesia 12 S 12 S Indian Ocean South Pacific Ocean A Australia 24 S C D 24 S B 36 S 36 S Tasmania N Key Mountains 84 Explain why location A has a cooler average yearly air temperature than location B. [1] 85 The cross section below represents a mountain between locations C and D and the direction of prevailing winds. Prevailing winds C D Explain why location D has a wetter climate than location C. [1] P.S./E. Sci. June 16 [22] Ocean The University of the State of New York REGENTS HIGH SCHOOL EXAMINATION PHYSICAL SETTING EARTH SCIENCE Friday, June 17, 2016 9:15 a.m. to 12:15 p.m., only ANSWER BOOKLET Student . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . I Male Sex: I Female Teacher . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . School . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Grade . . . . . . . . . Record your answers for Part B 2 and Part C in this booklet. Part B 2 51 52 53 54 Circle one: lunar eclipse solar eclipse Explanation: 55 Moon s orbit Sun s rays North Pole Earth 56 days 57 P.S./E. Sci. Answer Booklet June 16 [2] 58 1016 1020 1024 1028 1012 Canada 1008 1013 1004 1004 1000 1012 L 1008 A 1008 1004 996 Atlantic Ocean 1004 1000 1008 1010 1012 1014 1012 N Gulf of Mexico 59 60 61 in of Hg P.S./E. Sci. Answer Booklet June 16 [3] [OVER] 62 100 14 C Percentage at formation 0 years Time at formation 14 Percentage at end of one half-life 3 x 10 years Time at end of one half-life 63 64 65 P.S./E. Sci. Answer Booklet June 16 14 C [4] C Percentage at end of two half-lives 3 x 10 years Time at end of two half-lives Part C 66 h 67 68 69 12 8 December 21 50 N 16 50 0 5 0 N N 12 8 4 4 0 20 16 0 0 24 Length of Daylight (h) Length of Daylight (h) 20 September 22 March 20 24 June 21 Length of Daylight During the Year Jan Feb Mar P.S./E. Sci. Answer Booklet June 16 Apr May Jun Jul Month [5] Aug Sep Oct Nov Dec 0 [OVER] 70 Volcanoes and Islands of Hawaii x Kauai Oahu x Waianae Molokai x Koolau x x East Molokai West Maui West Molokai x Haleakala x Lanai x Maui x Kahoolawe KEA TREND LOA TREND Kohala x Pacific Ocean x Mauna Kea Hualalai x Mauna Loa x x Kilauea N Hawaii x Loihi 0 50 100 150 200 Key x Volcano Kilometers 71 ________________________________________ and ________________________________________ 72 73 74 P.S./E. Sci. Answer Booklet June 16 [6] 75 1500 E 2000 A Bu ck Ri 15 00 ve r B 0 1500 200 D N C 0 1 2 3 miles Contour Interval = 100 feet 76 Elevation (feet) 1900 1800 1700 1600 1500 1400 A 77 Distance B ft/mi P.S./E. Sci. Answer Booklet June 16 [7] [OVER] P.S./EARTH SCIENCE 78 79 cm/s 80 81 82 Density of gabbro: Composition of gabbro: 83 84 85 [8] Printed on Recycled Paper P.S./EARTH SCIENCE P.S./E. Sci. Answer Booklet June 16 FOR TEACHERS ONLY The University of the State of New York REGENTS HIGH SCHOOL EXAMINATION PHYSICAL SETTING/EARTH SCIENCE Friday, June 17, 2016 9:15 a.m. to 12:15 p.m., only SCORING KEY AND RATING GUIDE Directions to the Teacher: Refer to the directions on page 2 before rating student papers. Updated information regarding the rating of this examination may be posted on the New York State Education Department s web site during the rating period. Check this web site at: http://www.p12.nysed.gov/assessment/ and select the link Scoring Information for any recently posted information regarding this examination. This site should be checked before the rating process for this examination begins and several times throughout the Regents Examination period. Part A and Part B 1 Allow 1 credit for each correct response. Part A 1 ......1...... 10 . . . . . . 3 . . . . . . 19 . . . . . . 3 . . . . . . 28 . . . . . . 4 . . . . . . 2 ......2...... 11 . . . . . . 1 . . . . . . 20 . . . . . . 1 . . . . . . 29 . . . . . . 4 . . . . . . 3 ......3...... 12 . . . . . . 4 . . . . . . 21 . . . . . . 3 . . . . . . 30 . . . . . . 2 . . . . . . 4 ......2...... 13 . . . . . . 2 . . . . . . 22 . . . . . . 1 . . . . . . 31 . . . . . . 3 . . . . . . 5 ......1...... 14 . . . . . . 1 . . . . . . 23 . . . . . . 2 . . . . . . 32 . . . . . . 4 . . . . . . 6 ......3...... 15 . . . . . . 4 . . . . . . 24 . . . . . . 2 . . . . . . 33 . . . . . . 4 . . . . . . 7 ......4...... 16 . . . . . . 2 . . . . . . 25 . . . . . . 2 . . . . . . 34 . . . . . . 1 . . . . . . 8 ......3...... 17 . . . . . . 3 . . . . . . 26 . . . . . . 3 . . . . . . 35 . . . . . . 4 . . . . . . 9 ......3...... 18 . . . . . . 2 . . . . . . 27 . . . . . . 2 . . . . . . Part B 1 36 . . . . . . 2 . . . . . . 40 . . . . . . 3 . . . . . . 44 . . . . . . 2 . . . . . . 48 . . . . . . 1 . . . . . . 37 . . . . . . 1 . . . . . . 41 . . . . . . 1 . . . . . . 45 . . . . . . 4 . . . . . . 49 . . . . . . 3 . . . . . . 38 . . . . . . 4 . . . . . . 42 . . . . . . 3 . . . . . . 46 . . . . . . 1 . . . . . . 50 . . . . . . 4 .. . . . . 39 . . . . . . 3 . . . . . . 43 . . . . . . 2 . . . . . . 47 . . . . . . 4 . . . . . . Directions to the Teacher Follow the procedures below for scoring student answer papers for the Regents Examination in Physical Setting/Earth Science. Additional information about scoring is provided in the publication Information Booklet for Scoring Regents Examinations in the Sciences. Do not attempt to correct the student s work by making insertions or changes of any kind. If the student s responses for the multiple-choice questions are being hand scored prior to being scanned, the scorer must be careful not to make any marks on the answer sheet except to record the scores in the designated score boxes. Marks elsewhere on the answer sheet will interfere with the accuracy of the scanning. Allow 1 credit for each correct response. At least two science teachers must participate in the scoring of the Part B 2 and Part C open-ended questions on a student s paper. Each of these teachers should be responsible for scoring a selected number of the open-ended questions on each answer paper. No one teacher is to score more than approximately one-half of the open-ended questions on a student s answer paper. Teachers may not score their own students answer papers. Students responses must be scored strictly according to the Scoring Key and Rating Guide. For open-ended questions, credit may be allowed for responses other than those given in the rating guide if the response is a scientifically accurate answer to the question and demonstrates adequate knowledge as indicated by the examples in the rating guide. On the student s separate answer sheet, for each question, record the number of credits earned and the teacher s assigned rater/scorer letter. Fractional credit is not allowed. Only whole-number credit may be given for a response. If the student gives more than one answer to a question, only the first answer should be rated. Units need not be given when the wording of the questions allows such omissions. For hand scoring, raters should enter the scores earned in the appropriate boxes printed on the separate answer sheet. Next, the rater should add these scores and enter the total in the space provided. The student s score for the Earth Science Performance Test should be recorded in the space provided. Then the student s raw scores on the written test and the performance test should be converted to a scale score by using the conversion chart that will be posted on the Department s web site at: http://www.p12.nysed.gov/assessment/ on Friday, June 17, 2016. The student s scale score should be entered in the box labeled Scale Score on the student s answer sheet. The scale score is the student s final examination score. Schools are not permitted to rescore any of the open-ended questions on this exam after each question has been rated once, regardless of the final exam score. Schools are required to ensure that the raw scores have been added correctly and that the resulting scale score has been determined accurately. Because scale scores corresponding to raw scores in the conversion chart may change from one administration to another, it is crucial that, for each administration, the conversion chart provided for that administration be used to determine the student s final score. P.S./E. Sci. Rating Guide June 16 [2] Part B 2 Allow a maximum of 15 credits for this part. To ensure the accuracy of overlays, select a printer setting such as full, actual size or 100% when printing this document. Do not select the fit to page setting. 51 [1] Allow 1 credit. Acceptable responses include, but are not limited to: The wavelengths are shifting toward the red end of the spectrum. The farther a star cluster is from Earth, the more the redshift. redshift of light The wavelengths of light are getting longer or increasing. Note: Do not allow credit for the more red in color a star is, the more it is moving away because star color alone does not indicate motion. 52 [1] Allow 1 credit for Ca. 53 [1] Allow 1 credit for fusion or nuclear fusion. 54 [1] Allow 1 credit for both circling solar eclipse and providing an acceptable explanation. Acceptable responses include, but are not limited to: The shadow of the Moon falls on Earth during a solar eclipse. The Moon blocks some sunlight from reaching Earth. The Moon is aligned between the Sun and Earth. Solar eclipses occur only during the New Moon phase. Note: Allow credit if neither eclipse is circled, but solar eclipse is correctly used in the explanation. Do not allow alignment or lined up alone because this occurs in both types of eclipses. Students must indicate the correct sequence of celestial objects in a solar eclipse (ex., Sun, Moon, Earth or Moon in the middle ). P.S./E. Sci. Rating Guide June 16 [3] 55 [1] Allow 1 credit if the center of the student s X is within or touches the clear band shown below. Note: Allow credit if a symbol other than an X is used. It is recommended that an overlay of the same scale as the student answer sheet be used to ensure reliability in rating. Moon s orbit North Pole Sun s rays Earth 56 [1] Allow 1 credit for any value from 29 to 30 days. 57 [1] Allow 1 credit. Acceptable responses include, but are not limited to: The Moon s period of rotation equals the Moon s period of revolution. The Moon rotates at the same rate that it revolves around Earth. The Moon spins once during each revolution. Both motions are completed in 27.3 days. P.S./E. Sci. Rating Guide June 16 [4] 58 [1] Allow 1 credit if both isobars are correctly drawn to the east coast of the United States or to the edge of the map. Note: If additional isobars are drawn, all must be correct to receive credit. Isobars may be extended into the ocean and/or form closed loops. Do not allow credit if student-drawn isobars do not pass through or touch the 1012 and 1008 data points. Example of a 1-credit response: 1016 1020 1024 1028 1012 Canada 1008 1013 1004 1004 1000 1012 L 1008 A 1008 1004 996 Atlantic Ocean 1004 1000 1008 1010 1012 1014 1012 N Gulf of Mexico 59 [1] Allow 1 credit for barometer or barograph. 60 [1] Allow 1 credit. Acceptable responses include, but are not limited to: NE northeast east ENE P.S./E. Sci. Rating Guide June 16 [5] 61 [1] Allow 1 credit for any value from 30.00 to 30.01 in of Hg. Note: Also allow credit for 30 or 30.0 in of Hg. 62 [1] Allow 1 credit if all of the percentages and ages are correct, as shown below. 100 14 14 C Percentage at formation 0 years Time at formation 25 or 25 50 or 50 14 C Percentage at end of one half-life 5.7 C Percentage at end of two half-lives 3 x 10 years Time at end of one half-life 11.4 3 x 10 years Time at end of two half-lives Note: Allow credit if the student shades the second box 50% and the third box 25% in the first row of boxes. 63 [1] Allow 1 credit. Acceptable responses include, but are not limited to: 14N nitrogen-14 N-14 nitrogen/N 14C 14N 64 [1] Allow 1 credit. Acceptable responses include, but are not limited to: Carbon-14 has a short half-life. After 1,000,000 years, there would not be enough C-14. 14C decays quickly. The organic remains are too old to be dated with C-14. Too little of the original radioactive sample would remain. 65 [1] Allow 1 credit. Acceptable responses include, but are not limited to: Uranium-238 238U U-238 uranium/U P.S./E. Sci. Rating Guide June 16 [6] Part C Allow a maximum of 20 credits for this part. 66 [1] Allow 1 credit for any value from 8.0 h to 9.5 h. 67 [1] Allow 1 credit for a latitude of 60 N. 68 [1] Allow 1 credit. Acceptable responses include, but are not limited to: Earth s North Pole is not tilted toward or away from the Sun on those dates. Earth s axis is perpendicular to sunlight on those two dates. The Sun s direct rays at noon are over the equator. The Sun rises directly east and sets directly west on those dates. These dates are equinoxes. These dates are the first day of spring and the first day of fall. Note: Do not accept Earth is not tilted alone, because Earth is always tilted on its axis with respect to its orbital plane. 69 [1] Allow 1 credit for any line that extends from the beginning of January to the end of December, and is completely within the clear band shown below. Note: It is recommended that an overlay of the same scale as the student answer sheet be used to ensure reliability in rating. 12 8 December 21 50 N 16 0 5 0 N 50 N 12 8 4 4 0 20 16 0 0 24 Jan P.S./E. Sci. Rating Guide June 16 Feb Mar Apr May Jun Jul Month [7] Aug Sep Oct Nov Dec 0 Length of Daylight (h) Length of Daylight (h) 20 September 22 March 20 24 June 21 Length of Daylight During the Year 70 [1] Allow 1 credit if the center of the student s X is within or touches the box shown below. Note: Allow credit if a symbol other than an X is used. It is recommended that an overlay of the same scale as the student answer sheet be used to ensure reliability in rating. Volcanoes and Islands of Hawaii x Kauai Oahu x Waianae Molokai x Koolau x x East Molokai West Maui West Molokai x Haleakala x Lanai x Maui x Kahoolawe KEA TREND LOA TREND Kohala x Pacific Ocean x Mauna Kea Hualalai x Mauna Loa x x Kilauea N Hawaii x Loihi 0 50 100 150 200 Key x Volcano Kilometers 71 [1] Allow 1 credit for both West Molokai and East Molokai. 72 [1] Allow 1 credit. Acceptable responses include, but are not limited to: As distance increases, age increases. direct relationship The oldest volcanoes are farthest from Loihi. The younger the volcano, the closer it is to Loihi. They both increase. P.S./E. Sci. Rating Guide June 16 [8] 73 [1] Allow 1 credit. Acceptable responses include, but are not limited to: Hawaii Hot Spot mantle plume hot spot rising magma Note: Do not accept convection , because this is a process, not a tectonic feature. 74 [1] Allow 1 credit. Acceptable responses include, but are not limited to: to the northwest NW from the SE toward the NW NNW west northwest 75 [1] Allow 1 credit if the center of the student s X is within the clear area inside the 2200-foot contour line shown on the map below. Note: Allow credit if a symbol other than an X is used. Do not allow credit if the center of the X touches the 2200-foot contour line. 1500 E 2000 A Bu ck Ri 15 00 ve r B 1500 0 C 0 1 P.S./E. Sci. Rating Guide June 16 2 3 miles Contour Interval = 100 feet [9] 200 D N 76 [1] Allow 1 credit if the centers of all six plots are within or touch the rectangles shown below and are connected with a line from A to B that passes within or touches the rectangles. The line must extend above 1800 ft but below 1900 ft. Note: Allow credit if the line does not pass through the student plots, but is within or touches the boxes shown below. It is recommended that an overlay of the same scale as the student answer sheet be used to ensure reliability in rating. Elevation (feet) 1900 1800 1700 1600 1500 1400 A Distance B 77 [1] Allow 1 credit for any value from 161 to 173 ft/mi. 78 [1] Allow 1 credit. Acceptable responses include, but are not limited to: Contour lines that cross a river form V shapes that point to the source of the stream. The elevations of the contour lines decrease from north to south, indicating that the river is flowing in a southerly direction. The contour lines point upstream. The contour lines bend upstream when they cross a stream. The V shapes of the contour lines point upstream toward higher elevations. The contour lines bend in the opposite direction that the stream flows. Note: Do not allow credit for water flows downhill because this does not indicate how contour lines show the direction of streamflow. 79 [1] Allow 1 credit for any value from 150 cm/s to 250 cm/s. P.S./E. Sci. Rating Guide June 16 [10] 80 [1] Allow 1 credit. Acceptable responses include, but are not limited to: Large crystals form from slow cooling deep underground. The crystals in syenite formed in an intrusion or an intrusive environment. The texture is coarse. Syenite formed by solidification of magma. large interlocking crystals Syenite formed inside of Earth. Note: Do not allow credit for texture , crystal , or interlocking crystals alone because these terms also describe volcanic igneous rock. 81 [1] Allow 1 credit. Acceptable responses include, but are not limited to: Anorthosite is made of plagioclase feldspar, which is white to gray in color. Anorthosite is made of light-colored minerals. Plagioclase feldspar is white to gray. because of anorthosite s mineral composition Note: Do not allow credit for anorthosite is felsic rich because plagioclase feldspar is contained in both felsic-rich and mafic-rich igneous rocks. 82 [1] Allow 1 credit if both the density and composition of gabbro are correct. Acceptable responses include, but are not limited to: Density of gabbro: higher greater Composition of gabbro: mafic rich in Fe and Mg presence of pyroxene and/or olivine absence of quartz and/or potassium feldspar Note: Do not allow credit if the student lists all of the minerals in gabbro because the question asks how the composition of gabbro is different from granite. 83 [1] Allow 1 credit for limestone or marble. P.S./E. Sci. Rating Guide June 16 [11] 84 [1] Allow 1 credit. Acceptable responses include, but are not limited to: The higher elevation at A has a cooler temperature. Location A is at a higher elevation. Location A is in the mountains. Location B is not as high in elevation. 85 [1] Allow 1 credit. Acceptable responses include, but are not limited to: Location D has air that is rising, expanding, and cooling to the dewpoint. Location D is on the windward side of the mountain. Location D is closer to the ocean. Location C is on the leeward side of the mountain. P.S./E. Sci. Rating Guide June 16 [12] Regents Examination in Physical Setting/Earth Science June 2016 Chart for Converting Total Test Raw Scores to Final Examination Scores (Scale Scores) The Chart for Determining the Final Examination Score for the June 2016 Regents Examination in Physical Setting/Earth Science will be posted on the Department s web site at: http://www.p12.nysed.gov/assessment/ on Friday, June 17, 2016. Conversion charts provided for previous administrations of the Regents Examination in Physical Setting/Earth Science must NOT be used to determine students final scores for this administration. Online Submission of Teacher Evaluations of the Test to the Department Suggestions and feedback from teachers provide an important contribution to the test development process. The Department provides an online evaluation form for State assessments. It contains spaces for teachers to respond to several specific questions and to make suggestions. Instructions for completing the evaluation form are as follows: 1. Go to http://www.forms2.nysed.gov/emsc/osa/exameval/reexameval.cfm. 2. Select the test title. 3. Complete the required demographic fields. 4. Complete each evaluation question and provide comments in the space provided. 5. Click the SUBMIT button at the bottom of the page to submit the completed form. P.S./E. Sci. Rating Guide June 16 [13] Map to Core Curriculum June 2016 Physical Setting/Earth Science Key Ideas/Performance Indicators Math Key Idea 1 Math Key Idea 2 Math Key Idea 3 Science Inquiry Key Idea 1 Science Inquiry Key Idea 2 Science Inquiry Key Idea 3 Question Numbers Part A Standard 1 1 40 3, 30 Part B Part C 68, 70, 76, 77 66, 67, 72, 79 58, 62 36, 37, 38, 39, 46, 59, 64 75 2, 4, 5, 12, 16, 24, 29, 31, 32 3, 11, 13, 17, 19, 20, 21, 25, 33, 35 38, 42, 45, 47, 50, 52, 61, 63, 65 68, 73, 74, 77, 80, 81, 82, 83 Engineering Design Key Idea 1 Standard 2 Key Idea 1 Key Idea 2 Key Idea 3 Key Idea 1 Key Idea 2 Key Idea 3 Key Idea 4 Key Idea 5 60 Standard 6 16, 23, 26, 28, 29, 34 6, 8, 9, 15, 17, 26, 28, 31, 32, 34, 35 34 39, 43, 49, 53, 54, 60, 64 37, 40, 42, 43, 44, 45, 46, 48, 49, 51, 54, 55, 58, 60, 62 80, 85 50 57 41, 47, 55, 56 70, 75 70, 71, 73, 74, 76, 78, 79, 84, 85 67, 68, 69, 72, 78, 84 Key Idea 6 Standard 7 Key Idea 1 Key Idea 2 Key Idea 1 Key Idea 2 Key Idea 3 ESRT 2011 Edition (Revised) P.S./E. Sci. Rating Guide June 16 Standard 4 1, 2, 3, 4, 5, 6, 7, 8, 16, 17, 18, 19, 30, 32 9, 10, 11, 12, 13, 14, 15, 20, 21, 22, 23, 24, 26, 28, 29, 31, 33, 34, 35 25, 26 Reference Tables 3, 9, 10, 11, 13, 17, 19, 20, 21, 25, 27, 33, 35 [14] 40, 41, 42, 43, 44, 45, 48, 49, 51, 52, 53, 54, 55, 56, 57, 62, 63, 64, 65 36, 37, 38, 39, 46, 47, 58, 59, 60, 61 67, 68, 69 50 80, 81, 82, 83 36, 37, 38, 43, 45, 50, 52, 61, 62, 63, 65 73, 74, 77, 79, 80, 81, 82, 83 66, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 84, 85

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