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NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | DQ_011633 | image | question_images/evaporation_and_sublimation_8083.png | evaporation_and_sublimation_8083.png | 0.341792 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | DQ_011595 | image | question_images/evaporation_and_sublimation_8076.png | evaporation_and_sublimation_8076.png | 0.310146 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | T_1565 | image | textbook_images/precipitation_21039.png | FIGURE 1.2 | 0.309466 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | DQ_011620 | image | question_images/evaporation_and_sublimation_8081.png | evaporation_and_sublimation_8081.png | 0.296198 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | DD_0239 | image | teaching_images/state_change_7606.png | The diagram below shows how matter changes state. A material will change from one state or phase to another at specific combinations of temperature and surrounding pressure. Typically, the pressure is atmospheric pressure, so temperature is the determining factor to the change in state in those cases. The states of matter shown are ice (solid), water (liquid) and water vapor (gas). When heat is applied to a material, its change in state typically goes from solid to liquid to gas. There are some exceptions where the material will go directly from a solid to a gas. When a material is cooled, its change in state typically goes from gas to liquid to solid. There are some exceptions where the material will go directly from a gas to a solid. | 0.292525 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | T_4729 | image | textbook_images/potential_energy_23022.png | FIGURE 1.1 | 0.281532 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | T_0261 | image | textbook_images/weather_and_water_in_the_atmosphere_20159.png | FIGURE 16.4 Frozen precipitation may fall as snow, sleet, or freezing rain. type of frozen precipitation. Hail forms in thunderstorms when strong updrafts carry rain high into the troposphere. The rain freezes into balls of ice called hailstones. This may happen over and over again until the hailstones are as big as baseballs. Hail forms only in cumulonimbus clouds. | 0.280116 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | DQ_011664 | image | question_images/state_change_7604.png | state_change_7604.png | 0.274774 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | T_1565 | image | textbook_images/precipitation_21038.png | FIGURE 1.1 | 0.27457 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | DQ_000039 | image | question_images/glaciers_6927.png | glaciers_6927.png | 0.274166 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | T_4899 | text | null | Snow and ice may also undergo sublimation under certain conditions. This is most likely to happen where there is intense sunlight, very cold temperatures, and dry winds. These conditions are often found on mountain peaks. As snow sublimates, it gradually shrinks without any runoff of liquid water. Click image to the left or use the URL below. URL: | 0.649184 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | T_0259 | text | null | Clouds are needed for precipitation. This may fall as liquid water, or it may fall as frozen water, such as snow. | 0.540702 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | T_1564 | text | null | Some precipitation forms in place. Dew forms when moist air cools below its dew point on a cold surface. Frost is dew that forms when the air temperature is below freezing. | 0.493295 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | T_1698 | text | null | How well soil forms and what type of soil forms depends on several different factors, which are described below. | 0.469438 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | T_0164 | text | null | You know that ocean water is salty. But do you know why? How salty is it? | 0.467122 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | T_1018 | text | null | To make a weather forecast, the conditions of the atmosphere must be known for that location and for the surrounding area. Temperature, air pressure, and other characteristics of the atmosphere must be measured and the data collected. | 0.459627 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | T_0262 | text | null | An air mass is a large body of air that has about the same conditions throughout. For example, an air mass might have cold dry air. Another air mass might have warm moist air. The conditions in an air mass depend on where the air mass formed. | 0.457032 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | T_0286 | text | null | Predicting the weather requires a lot of weather data. Technology is used to gather the data and computers are used to analyze the data. Using this information gives meteorologists the best chance of predicting the weather. | 0.451546 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | T_4940 | text | null | Friction is the force that opposes motion between any surfaces that are in contact. There are four types of friction: static, sliding, rolling, and fluid friction. Static, sliding, and rolling friction occur between solid surfaces. Fluid friction occurs in liquids and gases. All four types of friction are described below. | 0.449348 |
NDQ_018573 | what conditions are needed for snow to undergo sublimation? | null | a. intense sunlight, b. very cold temperatures, c. dry winds, d. all of the above | d | T_4893 | text | null | A given kind of matter has the same chemical makeup and the same chemical properties regardless of its state. Thats because state of matter is a physical property. As a result, when matter changes state, it doesnt become a different kind of substance. For example, water is still water whether it exists as ice, liquid water, or water vapor. | 0.448723 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | T_4224 | image | textbook_images/chemical_change_22716.png | FIGURE 1.1 | 0.283645 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | DQ_011664 | image | question_images/state_change_7604.png | state_change_7604.png | 0.278005 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | T_4451 | image | textbook_images/freezing_22849.png | FIGURE 1.1 | 0.27783 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | T_4861 | image | textbook_images/solids_23083.png | FIGURE 1.2 | 0.27691 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | DD_0240 | image | teaching_images/evaporation_and_sublimation_6875.png | There are 4 states of matter observable in everyday life: solid, liquid, gas and plasma. This diagram shows 3 of these states: solid, liquid and gas and the processes that cause matter to change states. When a gas changes to a liquid, a liquid changes to a solid or a gas changes to a solid, heat is given out. Conversely, when a solid changes to a liquid, a liquid changes to a gas and a solid changes to a gas, heat is taken in. The names of these processes are provided in the diagram. For example: the process of state change from gas to liquid is called condensation. The process of change from liquid to solid is called freezing. The process of change from solid to liquid is called melting and the process of change from solid to gas is called sublimation. | 0.274346 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | T_1460 | image | textbook_images/mineral_identification_20963.png | FIGURE 1.2 | 0.272411 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | DQ_011570 | image | question_images/evaporation_and_sublimation_6876.png | evaporation_and_sublimation_6876.png | 0.271491 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | T_4511 | image | textbook_images/hydrocarbons_22886.png | FIGURE 1.1 | 0.269794 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | DD_0212 | image | teaching_images/convection_of_air_8050.png | This diagram shows convection currents. Convection is the transfer of heat from one place to another by the movement of fluids. The heat source lies at the bottom of the diagram. The heat generated by this source causes the air next to it, to warm up. Warm air is lighter than cool air, and hence it rises up. As it rises up, it moves away from the heat source and cools down. As it cools down, it gets heavier and sinks towards the heat source. This cycle continues and causes a convection current. | 0.267583 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | T_0659 | image | textbook_images/identification_of_minerals_20453.png | FIGURE 3.12 Rub a mineral across an unglazed porce- lain plate to see its streak. The hematite shown here has a red streak. | 0.266139 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | T_1797 | text | null | The two types of air pollutants are primary pollutants, which enter the atmosphere directly, and secondary pollutants, which form from a chemical reaction. | 0.577112 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | T_1132 | text | null | All air pollutants cause some damage to living creatures and the environment. Different types of pollutants cause different types of harm. | 0.536801 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | T_0457 | text | null | There are two basic types of pollutants in air. They are known as primary pollutants and secondary pollutants. | 0.535401 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | T_0251 | text | null | Humidity is the amount of water vapor in the air. High humidity increases the chances of clouds and precipitation. | 0.533534 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | T_0460 | text | null | Most pollutants enter the air when fossil fuels burn. Some are released when forests burn. Others evaporate into the air. | 0.532523 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | T_0202 | text | null | Air is easy to forget about. We usually cant see it, taste it, or smell it. We can only feel it when it moves. But air is actually made of molecules of many different gases. It also contains tiny particles of solid matter. | 0.532335 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | T_0959 | text | null | The short term cycling of carbon begins with carbon dioxide (CO2 ) in the atmosphere. | 0.523298 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | T_3960 | text | null | Solids that change to gases generally first pass through the liquid state. However, sometimes solids change directly to gases and skip the liquid state. The reverse can also occur. Sometimes gases change directly to solids. | 0.523104 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | T_0464 | text | null | All air pollutants are harmful. Thats why theyre called pollutants. Some air pollutants damage the environment as well as the health of living things. The type of damage depends on the pollutant. | 0.52298 |
NDQ_018574 | solid air fresheners gradually shrink because they undergo sublimation. | null | a. true, b. false | a | T_3801 | text | null | Although all electromagnetic waves travel at the same speed, they may differ in their wavelength and frequency. | 0.521799 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | DQ_011608 | image | question_images/evaporation_and_sublimation_8078.png | evaporation_and_sublimation_8078.png | 0.364225 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | DD_0240 | image | teaching_images/evaporation_and_sublimation_6875.png | There are 4 states of matter observable in everyday life: solid, liquid, gas and plasma. This diagram shows 3 of these states: solid, liquid and gas and the processes that cause matter to change states. When a gas changes to a liquid, a liquid changes to a solid or a gas changes to a solid, heat is given out. Conversely, when a solid changes to a liquid, a liquid changes to a gas and a solid changes to a gas, heat is taken in. The names of these processes are provided in the diagram. For example: the process of state change from gas to liquid is called condensation. The process of change from liquid to solid is called freezing. The process of change from solid to liquid is called melting and the process of change from solid to gas is called sublimation. | 0.353678 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | DQ_011633 | image | question_images/evaporation_and_sublimation_8083.png | evaporation_and_sublimation_8083.png | 0.34051 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | DD_0236 | image | teaching_images/state_change_7605.png | This diagram shows the changes of state in matter. Changes of state are physical changes in matter. They are reversible changes that do not involve changes in matters chemical makeup or chemical properties. They occur when matter absorbs or loses energy. Processes in which matter changes between liquid and solid states are freezing and melting. For a solid to change to a liquid, matter must absorb energy from its surroundings. Freezing happens when the water cools and loses energy until they remain in fixed positions as ice. Processes in which matter changes between liquid and gaseous states are vaporization, evaporation, and condensation. Processes in which matter changes between solid and gaseous states are sublimation and deposition. | 0.337146 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | T_4279 | image | textbook_images/convection_22749.png | FIGURE 1.1 | 0.335802 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | DQ_011645 | image | question_images/state_change_7601.png | state_change_7601.png | 0.332417 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | DQ_011595 | image | question_images/evaporation_and_sublimation_8076.png | evaporation_and_sublimation_8076.png | 0.331178 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | DD_0239 | image | teaching_images/state_change_7606.png | The diagram below shows how matter changes state. A material will change from one state or phase to another at specific combinations of temperature and surrounding pressure. Typically, the pressure is atmospheric pressure, so temperature is the determining factor to the change in state in those cases. The states of matter shown are ice (solid), water (liquid) and water vapor (gas). When heat is applied to a material, its change in state typically goes from solid to liquid to gas. There are some exceptions where the material will go directly from a solid to a gas. When a material is cooled, its change in state typically goes from gas to liquid to solid. There are some exceptions where the material will go directly from a gas to a solid. | 0.329159 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | DQ_011657 | image | question_images/state_change_7603.png | state_change_7603.png | 0.325925 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | DQ_011639 | image | question_images/state_change_7600.png | state_change_7600.png | 0.325547 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | T_4893 | text | null | A given kind of matter has the same chemical makeup and the same chemical properties regardless of its state. Thats because state of matter is a physical property. As a result, when matter changes state, it doesnt become a different kind of substance. For example, water is still water whether it exists as ice, liquid water, or water vapor. | 0.637019 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | T_3691 | text | null | No doubt you already have a good idea of what temperature is. You might define it as how hot or cold something feels. In physics, temperature is defined as the average kinetic energy of the particles in an object. When particles move more quickly, temperature is higher and an object feels warmer. When particles move more slowly, temperature is lower and an object feels cooler. | 0.627816 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | T_4174 | text | null | Vaporization is easily confused with evaporation, but the two processes are not the same. Evaporation also changes a liquid to a gas, but it doesnt involve boiling. Instead, evaporation occurs when particles at the surface of a liquid gain enough energy to escape into the air. This happens without the liquid becoming hot enough to boil. | 0.613954 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | T_4899 | text | null | Snow and ice may also undergo sublimation under certain conditions. This is most likely to happen where there is intense sunlight, very cold temperatures, and dry winds. These conditions are often found on mountain peaks. As snow sublimates, it gradually shrinks without any runoff of liquid water. Click image to the left or use the URL below. URL: | 0.611739 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | T_1277 | text | null | Water sometimes comes into contact with hot rock. The water may emerge at the surface as either a hot spring or a geyser. | 0.611441 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | T_3956 | text | null | If you fill a pot with cool tap water and place the pot on a hot stovetop, the water heats up. Heat energy travels from the stovetop to the pot, and the water absorbs the energy from the pot. What happens to the water next? | 0.607503 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | T_0251 | text | null | Humidity is the amount of water vapor in the air. High humidity increases the chances of clouds and precipitation. | 0.607338 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | T_0250 | text | null | The water cycle plays an important role in weather. When liquid water evaporates, it causes humidity. When water vapor condenses, it forms clouds and precipitation. Humidity, clouds, and precipitation are all important weather factors. | 0.606289 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | T_0229 | text | null | Air temperature in the stratosphere layer increases with altitude. Why? The stratosphere gets most of its heat from the Sun. Therefore, its warmer closer to the Sun. The air at the bottom of the stratosphere is cold. The cold air is dense, so it doesnt rise. As a result, there is little mixing of air in this layer. | 0.599299 |
NDQ_018575 | whenever water ice gains heat, it undergoes sublimation. | null | a. true, b. false | b | T_1674 | text | null | Remember that H2 O is a polar molecule, so it can dissolve many substances (Figure 1.1). Salts, sugars, acids, bases, and organic molecules can all dissolve in water. | 0.594503 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | DQ_002681 | image | question_images/radioactive_decay_7516.png | radioactive_decay_7516.png | 0.322581 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | DQ_002744 | image | question_images/radioactive_decay_8182.png | radioactive_decay_8182.png | 0.316804 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | DQ_011633 | image | question_images/evaporation_and_sublimation_8083.png | evaporation_and_sublimation_8083.png | 0.315279 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | DQ_011570 | image | question_images/evaporation_and_sublimation_6876.png | evaporation_and_sublimation_6876.png | 0.313527 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | T_3944 | image | textbook_images/solids_liquids_gases_and_plasmas_22541.png | FIGURE 4.8 Kinetic energy is needed to overcome the force of attraction between particles of the same substance. | 0.307511 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | DQ_010684 | image | abc_question_images/nuclear_energy_18107.png | nuclear_energy_18107.png | 0.300532 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | DQ_011501 | image | question_images/states_of_matter_7614.png | states_of_matter_7614.png | 0.293144 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | T_4432 | image | textbook_images/evaporation_22833.png | FIGURE 1.1 | 0.292463 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | DQ_010772 | image | question_images/nuclear_energy_8106.png | nuclear_energy_8106.png | 0.291077 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | T_4563 | image | textbook_images/kinetic_theory_of_matter_22914.png | FIGURE 1.1 | 0.290632 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | T_2746 | text | null | Like all organisms, bacteria need energy, and they can acquire this energy through a number of different ways. | 0.760371 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | T_2237 | text | null | All known matter can be divided into a little more than 100 different substances called elements. | 0.742498 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | T_3941 | text | null | Why do different states of matter have different properties? Its because of differences in energy at the level of atoms and molecules, the tiny particles that make up matter. | 0.735953 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | T_0726 | text | null | Nuclear energy is produced by splitting the nucleus of an atom. This releases a huge amount of energy. | 0.723251 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | T_3943 | text | null | The particles that make up matter are also constantly moving. They have kinetic energy. The theory that all matter consists of constantly moving particles is called the kinetic theory of matter. You can learn more about it at the URL below. | 0.719921 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | T_4715 | text | null | Compare and contrast the basic properties of matter, such as mass and volume. | 0.716251 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | T_0638 | text | null | To understand minerals, we must first understand matter. Matter is the substance that physical objects are made of. | 0.715054 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | T_0698 | text | null | Energy changes form when something happens. But the total amount of energy always stays the same. The Law of Conservation of Energy says that energy cannot be created or destroyed. Scientists observed that energy could change from one form to another. They also observed that the overall amount of energy did not change. | 0.71234 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | T_4893 | text | null | A given kind of matter has the same chemical makeup and the same chemical properties regardless of its state. Thats because state of matter is a physical property. As a result, when matter changes state, it doesnt become a different kind of substance. For example, water is still water whether it exists as ice, liquid water, or water vapor. | 0.711573 |
NDQ_018576 | after a substance sublimates, its particles have less energy. | null | a. true, b. false | b | T_3801 | text | null | Although all electromagnetic waves travel at the same speed, they may differ in their wavelength and frequency. | 0.702218 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | DQ_002744 | image | question_images/radioactive_decay_8182.png | radioactive_decay_8182.png | 0.328382 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | DQ_002681 | image | question_images/radioactive_decay_7516.png | radioactive_decay_7516.png | 0.30993 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | T_3944 | image | textbook_images/solids_liquids_gases_and_plasmas_22541.png | FIGURE 4.8 Kinetic energy is needed to overcome the force of attraction between particles of the same substance. | 0.301727 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | T_4563 | image | textbook_images/kinetic_theory_of_matter_22914.png | FIGURE 1.1 | 0.300542 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | DQ_011501 | image | question_images/states_of_matter_7614.png | states_of_matter_7614.png | 0.299057 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | T_3720 | image | textbook_images/characteristics_of_waves_22378.png | FIGURE 19.8 Surface waves are both transverse and longitudinal waves. | 0.298464 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | T_4901 | image | textbook_images/surface_wave_23103.png | FIGURE 1.1 | 0.295822 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | DQ_011493 | image | abc_question_images/states_of_matter_19258.png | states_of_matter_19258.png | 0.288764 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | DQ_011479 | image | abc_question_images/states_of_matter_17613.png | states_of_matter_17613.png | 0.283767 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | DQ_010756 | image | question_images/nuclear_energy_8103.png | nuclear_energy_8103.png | 0.283719 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | T_3943 | text | null | The particles that make up matter are also constantly moving. They have kinetic energy. The theory that all matter consists of constantly moving particles is called the kinetic theory of matter. You can learn more about it at the URL below. | 0.781525 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | T_3941 | text | null | Why do different states of matter have different properties? Its because of differences in energy at the level of atoms and molecules, the tiny particles that make up matter. | 0.72537 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | T_4893 | text | null | A given kind of matter has the same chemical makeup and the same chemical properties regardless of its state. Thats because state of matter is a physical property. As a result, when matter changes state, it doesnt become a different kind of substance. For example, water is still water whether it exists as ice, liquid water, or water vapor. | 0.702285 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | T_4823 | text | null | Newtons third law of motion is just one of many scientific laws. A scientific law is a statement describing what always happens under certain conditions. Other examples of laws in physical science include: Newtons first law of motion Newtons second law of motion Newtons law of universal gravitation Law of conservation of mass Law of conservation of energy Law of conservation of momentum | 0.702125 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | T_3801 | text | null | Although all electromagnetic waves travel at the same speed, they may differ in their wavelength and frequency. | 0.683198 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | T_3942 | text | null | Energy is defined as the ability to cause changes in matter. You can change energy from one form to another when you lift your arm or take a step. In each case, energy is used to move matter you. The energy of moving matter is called kinetic energy. | 0.681507 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | T_3860 | text | null | Electric current cannot travel through empty space. It needs a material through which to travel. However, when current travels through a material, the flowing electrons collide with particles of the material, and this creates resistance. | 0.678574 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | T_4976 | text | null | Waves that travel through mattersuch as the fabric of a flagare called mechanical waves. The matter they travel through is called the medium. When the energy of a wave passes through the medium, particles of the medium move. The more energy the wave has, the farther the particles of the medium move. The distance the particles move is measured by the waves amplitude. | 0.675627 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | T_4715 | text | null | Compare and contrast the basic properties of matter, such as mass and volume. | 0.674916 |
NDQ_018650 | when particles of matter move more quickly they | null | a. have more kinetic energy., b. have a higher temperature., c. feel warmer to the touch., d. all of the above | d | T_3727 | text | null | The speed of most waves depends on the medium through which they are traveling. Generally, waves travel fastest through solids and slowest through gases. Thats because particles are closest together in solids and farthest apart in gases. When particles are farther apart, it takes longer for the energy of the disturbance to pass from particle to particle. | 0.673349 |
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