< BackNext >PreviewMain Exploring Space Chapter 22 Preview CRCT Preparation.

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Presentation transcript:

< BackNext >PreviewMain Exploring Space Chapter 22 Preview CRCT Preparation

< BackNext >PreviewMain CRCT Preparation 1. Cassandra is making a model rocket like the one in the diagram. She wants to make sure the rocket doesn’t burn up when she launches it. She has some extra insulation to add to the areas of the rocket that will get the hottest. Where should she add the insulation? A area X onlyC areas X and Y B area Y onlyD areas Y and Z Chapter 22

< BackNext >PreviewMain CRCT Preparation Chapter Cassandra is making a model rocket like the one in the diagram. She wants to make sure the rocket doesn’t burn up when she launches it. She has some extra insulation to add to the areas of the rocket that will get the hottest. Where should she add the insulation? A area X onlyC areas X and Y B area Y onlyD areas Y and Z

< BackNext >PreviewMain CRCT Preparation 2. Cassandra’s model rocket can travel at a speed of 600 km/h. What could happen to the rocket if it had enough fuel to reach Earth’s outer atmosphere? A The rocket would eventually fall back to Earth. B The rocket would achieve low Earth orbit. C The rocket would achieve geostationary orbit. D The rocket would escape Earth’s gravity. Chapter 22

< BackNext >PreviewMain CRCT Preparation Chapter Cassandra’s model rocket can travel at a speed of 600 km/h. What could happen to the rocket if it had enough fuel to reach Earth’s outer atmosphere? A The rocket would eventually fall back to Earth. B The rocket would achieve low Earth orbit. C The rocket would achieve geostationary orbit. D The rocket would escape Earth’s gravity.

< BackNext >PreviewMain CRCT Preparation 3. The study of which two planets is the most beneficial for scientists who want to better understand Earth? A Mars and Jupiter B Mercury and Neptune C Saturn and Venus D Venus and Mars Chapter 22

< BackNext >PreviewMain CRCT Preparation Chapter The study of which two planets is the most beneficial for scientists who want to better understand Earth? A Mars and Jupiter B Mercury and Neptune C Saturn and Venus D Venus and Mars

< BackNext >PreviewMain CRCT Preparation 4. If a communications satellite is moving in a geostationary orbit, which statement best describes the satellite’s position relative to Earth? A The satellite is orbiting Earth at the equator. B The satellite is orbiting Earth in a polar orbit. C The satellite is above a fixed spot over the North Pole. D The satellite is above a fixed spot on the equator. Chapter 22

< BackNext >PreviewMain CRCT Preparation Chapter If a communications satellite is moving in a geostationary orbit, which statement best describes the satellite’s position relative to Earth? A The satellite is orbiting Earth at the equator. B The satellite is orbiting Earth in a polar orbit. C The satellite is above a fixed spot over the North Pole. D The satellite is above a fixed spot on the equator.

< BackNext >PreviewMain CRCT Preparation 5. Which one of the following bodies in the solar system has an atmosphere that may contain clues to the development of life on Earth? A Mars B Jupiter’s moon Europa C Saturn’s moon Titan D Neptune Chapter 22

< BackNext >PreviewMain CRCT Preparation Chapter Which one of the following bodies in the solar system has an atmosphere that may contain clues to the development of life on Earth? A Mars B Jupiter’s moon Europa C Saturn’s moon Titan D Neptune

< BackNext >PreviewMain CRCT Preparation 6. A space vehicle’s payload is the amount of material that the vehicle is able to carry into space. According to the table, what was the ratio of payload to vehicle height for the smallest space vehicle (expressed as a whole number)? A 48:1C 527:1 B 290:1D 1165:1 Chapter 22

< BackNext >PreviewMain CRCT Preparation Chapter A space vehicle’s payload is the amount of material that the vehicle is able to carry into space. According to the table, what was the ratio of payload to vehicle height for the smallest space vehicle (expressed as a whole number)? A 48:1C 527:1 B 290:1D 1165:1

< BackNext >PreviewMain CRCT Preparation 7. Which space vehicle listed in the table would need the greatest amount of fuel to reach escape velocity? A Mercury-AtlasC Titan IV B DeltaD Saturn V Chapter 22

< BackNext >PreviewMain CRCT Preparation Chapter Which space vehicle listed in the table would need the greatest amount of fuel to reach escape velocity? A Mercury-AtlasC Titan IV B DeltaD Saturn V

< BackNext >PreviewMain CRCT Preparation 8. A student uses a balloon filled with air to model a rocket. Although her model is very limited, the air-filled balloon is best for modeling A escape velocity. B action and reaction forces. C orbital motion. D payload carrying capacity. Chapter 22

< BackNext >PreviewMain CRCT Preparation Chapter A student uses a balloon filled with air to model a rocket. Although her model is very limited, the air-filled balloon is best for modeling A escape velocity. B action and reaction forces. C orbital motion. D payload carrying capacity.

< BackNext >PreviewMain CRCT Preparation Chapter Probe missions have allowed scientists to study the planet Venus. How could studies of Venus’s atmosphere help scientists to create climate models that would give them a greater understanding of long- term trends in Earth’s atmosphere? A Studies of gases and ash produced by volcanic activity on Venus could help scientists to understand air pollution on Earth. B Studies of weather patterns and storms in Venus’s atmosphere could help scientists to predict violent storms on Earth. C Studies of Venus’s severe greenhouse effect could help scientists to predict the effect of increasing greenhouse gases on Earth. D Studies of the relative concentrations of gases in Venus’s atmosphere could help scientists to understand how Earth’s atmosphere developed.

< BackNext >PreviewMain CRCT Preparation Chapter Probe missions have allowed scientists to study the planet Venus. How could studies of Venus’s atmosphere help scientists to create climate models that would give them a greater understanding of long- term trends in Earth’s atmosphere? A Studies of gases and ash produced by volcanic activity on Venus could help scientists to understand air pollution on Earth. B Studies of weather patterns and storms in Venus’s atmosphere could help scientists to predict violent storms on Earth. C Studies of Venus’s severe greenhouse effect could help scientists to predict the effect of increasing greenhouse gases on Earth. D Studies of the relative concentrations of gases in Venus’s atmosphere could help scientists to understand how Earth’s atmosphere developed.

< BackNext >PreviewMain CRCT Preparation 10. How could satellite technology help a geologist who is researching the rock formations on Lookout Mountain in Georgia? Chapter 22

< BackNext >PreviewMain CRCT Preparation Chapter Answer - Full-credit answers should include the following points: The geologist could use maps made from satellite data that contain elevation and topography. The geologist could use GPS to determine his or her location on the ground. The geologist could use remote sensing and Landsat images to map different rock types.

< BackNext >PreviewMain CRCT Preparation 11. Why would an orbiting space probe provide more information about Jupiter than a land-based, high- power telescope could? Chapter 22

< BackNext >PreviewMain CRCT Preparation Chapter Answer - Full-credit answers should include the following points: A space probe could get closer to Jupiter than a telescope could, so it could obtain more detailed images. A space probe could carry scientific instruments that would transmit information back to scientists on Earth. A space probe could travel through Jupiter’s atmosphere and could measure temperature, atmospheric pressure, cloud structure, and chemical composition.