Hessa/val_dataset_tqa · Datasets at Hugging Face

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NDQ_018461	for a given solvent, all solutes have the same solubility.	null	a. true, b. false	b	DQ_011501	image	question_images/states_of_matter_7614.png	states_of_matter_7614.png	0.292803
NDQ_018461	for a given solvent, all solutes have the same solubility.	null	a. true, b. false	b	T_4810	image	textbook_images/saturation_23062.png	FIGURE 1.1	0.272163
NDQ_018461	for a given solvent, all solutes have the same solubility.	null	a. true, b. false	b	T_3513	image	textbook_images/solubility_and_concentration_22212.png	FIGURE 10.2 This graph shows the amount of different solids that can dissolve in 1 L of water at 20 degrees C.	0.270576
NDQ_018461	for a given solvent, all solutes have the same solubility.	null	a. true, b. false	b	DQ_011479	image	abc_question_images/states_of_matter_17613.png	states_of_matter_17613.png	0.264352
NDQ_018461	for a given solvent, all solutes have the same solubility.	null	a. true, b. false	b	DQ_011497	image	question_images/states_of_matter_7613.png	states_of_matter_7613.png	0.264274
NDQ_018461	for a given solvent, all solutes have the same solubility.	null	a. true, b. false	b	DQ_011633	image	question_images/evaporation_and_sublimation_8083.png	evaporation_and_sublimation_8083.png	0.256821
NDQ_018461	for a given solvent, all solutes have the same solubility.	null	a. true, b. false	b	DQ_011540	image	question_images/states_of_matter_9257.png	states_of_matter_9257.png	0.252623
NDQ_018461	for a given solvent, all solutes have the same solubility.	null	a. true, b. false	b	DQ_011664	image	question_images/state_change_7604.png	state_change_7604.png	0.252607
NDQ_018461	for a given solvent, all solutes have the same solubility.	null	a. true, b. false	b	T_4894	image	textbook_images/states_of_matter_23100.png	FIGURE 1.2	0.252091
NDQ_018461	for a given solvent, all solutes have the same solubility.	null	a. true, b. false	b	T_3515	image	textbook_images/solubility_and_concentration_22213.png	FIGURE 10.3 Temperature affects the solubility of a solute. However, it affects the solubility of gases differently than the solubility of solids and liquids.	0.251618
NDQ_018461	for a given solvent, all solutes have the same solubility.	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.	0.749826
NDQ_018461	for a given solvent, all solutes have the same solubility.	null	a. true, b. false	b	T_4715	text	null	Compare and contrast the basic properties of matter, such as mass and volume.	0.74268
NDQ_018461	for a given solvent, all solutes have the same solubility.	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.	0.740255
NDQ_018461	for a given solvent, all solutes have the same solubility.	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.	0.727369
NDQ_018461	for a given solvent, all solutes have the same solubility.	null	a. true, b. false	b	T_1447	text	null	Minerals are divided into groups based on chemical composition. Most minerals fit into one of eight mineral groups.	0.718841
NDQ_018461	for a given solvent, all solutes have the same solubility.	null	a. true, b. false	b	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.	0.717208
NDQ_018461	for a given solvent, all solutes have the same solubility.	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.	0.705266
NDQ_018461	for a given solvent, all solutes have the same solubility.	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.	0.701429
NDQ_018461	for a given solvent, all solutes have the same solubility.	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.	0.700301
NDQ_018461	for a given solvent, all solutes have the same solubility.	null	a. true, b. false	b	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.	0.696787
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	T_3510	image	textbook_images/introduction_to_solutions_22211.png	FIGURE 10.1 These two diagrams show how an ionic compound (salt) and a covalent compound (sugar) dissolve in a solvent (water). MEDIA Click image to the left or use the URL below. URL: https://www.ck12.org/flx/render/embeddedobject/5004	0.307794
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	T_4279	image	textbook_images/convection_22749.png	FIGURE 1.1	0.296453
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	T_3961	image	textbook_images/changes_of_state_22556.png	FIGURE 4.23 Solid carbon dioxide changes directly to the gaseous state.	0.292631
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	T_4633	image	textbook_images/modern_periodic_table_22960.png	FIGURE 1.2	0.292446
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	T_4790	image	textbook_images/recognizing_chemical_reactions_23053.png	FIGURE 1.2	0.289798
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	T_3702	image	textbook_images/transfer_of_thermal_energy_22362.png	FIGURE 18.8 Convection currents carry thermal energy throughout the soup in the pot.	0.288831
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	DQ_011639	image	question_images/state_change_7600.png	state_change_7600.png	0.288172
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	T_3515	image	textbook_images/solubility_and_concentration_22214.png	FIGURE 10.4 Soda fizzes when carbon dioxide comes out of solution. Which do you think will fizz more, warm soda or cold soda?	0.283645
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	T_4495	image	textbook_images/heat_22879.png	FIGURE 1.2	0.282435
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	T_3381	image	textbook_images/scientific_theories_22130.png	FIGURE 1.1 Water going upward against gravity.	0.279454
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	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.	0.718609
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	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.	0.693997
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	T_4715	text	null	Compare and contrast the basic properties of matter, such as mass and volume.	0.684257
NDQ_018462	less sugar can dissolve in cold water than in hot water.	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.	0.67973
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	T_1593	text	null	Most of Earths water is stored in the oceans, where it can remain for hundreds or thousands of years.	0.674845
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	T_3491	text	null	Vitamins and minerals are also nutrients. They do not provide energy, but they are needed for good health.	0.672581
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	T_4783	text	null	Stirring a solute into a solvent speeds up the rate of dissolving because it helps distribute the solute particles throughout the solvent. For example, when you add sugar to iced tea and then stir the tea, the sugar will dissolve faster. If you dont stir the iced tea, the sugar may eventually dissolve, but it will take much longer.	0.670888
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	T_0133	text	null	Did you ever wonder where the water in your glass came from or where its been? The next time you take a drink of water, think about this. Each water molecule has probably been around for billions of years. Thats because Earths water is constantly recycled.	0.670716
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	T_4018	text	null	Water (H2 O) is an example of a chemical compound. Water molecules always consist of two atoms of hydrogen and one atom of oxygen. Like water, all other chemical compounds consist of a fixed ratio of elements. It doesnt matter how much or how little of a compound there is. It always has the same composition.	0.665885
NDQ_018462	less sugar can dissolve in cold water than in hot water.	null	a. true, b. false	a	T_3953	text	null	Think about how you would make ice cubes in a tray. First you would fill the tray with water from a tap. Then you would place the tray in the freezer compartment of a refrigerator. The freezer is very cold. What happens next?	0.664189
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	T_4279	image	textbook_images/convection_22749.png	FIGURE 1.1	0.331115
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	DQ_011639	image	question_images/state_change_7600.png	state_change_7600.png	0.323008
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	T_4633	image	textbook_images/modern_periodic_table_22960.png	FIGURE 1.2	0.316734
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	DQ_011608	image	question_images/evaporation_and_sublimation_8078.png	evaporation_and_sublimation_8078.png	0.315812
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	DQ_011657	image	question_images/state_change_7603.png	state_change_7603.png	0.302353
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	T_4272	image	textbook_images/conservation_of_mass_22747.png	FIGURE 1.1	0.298791
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	T_3936	image	textbook_images/changes_in_matter_22533.png	FIGURE 3.19 Burning is a chemical process. Is mass destroyed when wood burns?	0.298791
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	T_0089	image	textbook_images/absolute_ages_of_rocks_20066.png	FIGURE 11.16 Carbon-14 forms in the atmosphere. It combines with oxygen and forms carbon dioxide. How does carbon-14 end up in fossils?	0.298116
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	T_4834	image	textbook_images/scientific_theory_23070.png	FIGURE 1.1	0.297751
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	DQ_011633	image	question_images/evaporation_and_sublimation_8083.png	evaporation_and_sublimation_8083.png	0.296577
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	T_0959	text	null	The short term cycling of carbon begins with carbon dioxide (CO2 ) in the atmosphere.	0.742947
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	T_1593	text	null	Most of Earths water is stored in the oceans, where it can remain for hundreds or thousands of years.	0.703047
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	T_0966	text	null	Why is such a small amount of carbon dioxide in the atmosphere even important? Carbon dioxide is a greenhouse gas. Greenhouse gases trap heat energy that would otherwise radiate out into space, which warms Earth. These gases were discussed in the chapter Atmospheric Processes.	0.688553
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	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.	0.686698
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	T_1443	text	null	Water on Earth, such as the water in the oceans, contains chemical elements mixed into a solution. Various processes can cause these elements to combine to form solid mineral deposits.	0.683507
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	T_0669	text	null	Most water on Earth, like the water in the oceans, contains elements. The elements are mixed evenly through the water. Water plus other substances makes a solution. The particles are so small that they will not come out when you filter the water. But the elements in water can form solid mineral deposits.	0.678893
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	T_0721	text	null	Natural gas is mostly methane.	0.674836
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	T_0311	text	null	Earths climate has changed many times through Earths history. Its been both hotter and colder than it is today.	0.67431
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	T_1600	text	null	Water pollution can be reduced in two ways: Keep the water from becoming polluted. Clean water that is already polluted.	0.673758
NDQ_018463	less carbon dioxide can dissolve in cold water than in hot water.	null	a. true, b. false	b	T_1050	text	null	Atmospheric CO2 has increased over the past five decades, because the amount of CO2 gas released by volcanoes has increased.	0.672402
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	DQ_011501	image	question_images/states_of_matter_7614.png	states_of_matter_7614.png	0.319438
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	T_4180	image	textbook_images/boyles_law_22686.png	FIGURE 1.1	0.296492
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	T_3947	image	textbook_images/behavior_of_gases_22545.png	FIGURE 4.12 As the volume of a gas increases, its pressure decreases.	0.289611
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	T_3515	image	textbook_images/solubility_and_concentration_22213.png	FIGURE 10.3 Temperature affects the solubility of a solute. However, it affects the solubility of gases differently than the solubility of solids and liquids.	0.285906
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	T_4863	image	textbook_images/solubility_23085.png	FIGURE 1.1	0.285654
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	T_0980	image	textbook_images/chemical_bonding_20654.png	FIGURE 1.4 Water is a polar molecule. Because the oxygen atom has the electrons most of the time, the hydrogen side (blue) of the molecule has a slightly positive charge while the oxygen side (red) has a slightly negative charge.	0.284598
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	T_0287	image	textbook_images/weather_forecasting_20178.png	FIGURE 16.23 The greater the air pressure outside the tube, the higher the mercury rises inside the tube. Mercury can rise in the tube because theres no air pressing down on it.	0.282569
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	DQ_011497	image	question_images/states_of_matter_7613.png	states_of_matter_7613.png	0.278953
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	DQ_011479	image	abc_question_images/states_of_matter_17613.png	states_of_matter_17613.png	0.27621
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	DQ_011671	image	question_images/state_change_7608.png	state_change_7608.png	0.274894
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	T_4715	text	null	Compare and contrast the basic properties of matter, such as mass and volume.	0.74381
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	T_3946	text	null	For a given amount of gas, scientists have discovered that the pressure, volume, and temperature of a gas are related in certain ways. Because these relationships always hold in nature, they are called laws. The laws are named for the scientists that discovered them.	0.729723
NDQ_018464	increasing the pressure on a gas increases its solubility.	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.	0.728178
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	T_0959	text	null	The short term cycling of carbon begins with carbon dioxide (CO2 ) in the atmosphere.	0.723882
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	T_0721	text	null	Natural gas is mostly methane.	0.714483
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	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.	0.708704
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	T_2237	text	null	All known matter can be divided into a little more than 100 different substances called elements.	0.699347
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	T_1447	text	null	Minerals are divided into groups based on chemical composition. Most minerals fit into one of eight mineral groups.	0.696263
NDQ_018464	increasing the pressure on a gas increases its solubility.	null	a. true, b. false	a	T_0638	text	null	To understand minerals, we must first understand matter. Matter is the substance that physical objects are made of.	0.691776
NDQ_018464	increasing the pressure on a gas increases its solubility.	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.	0.690916
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	T_3513	image	textbook_images/solubility_and_concentration_22212.png	FIGURE 10.2 This graph shows the amount of different solids that can dissolve in 1 L of water at 20 degrees C.	0.321598
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	T_4810	image	textbook_images/saturation_23062.png	FIGURE 1.1	0.320868
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	DQ_011633	image	question_images/evaporation_and_sublimation_8083.png	evaporation_and_sublimation_8083.png	0.306756
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	DQ_011501	image	question_images/states_of_matter_7614.png	states_of_matter_7614.png	0.297323
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	T_1675	image	textbook_images/seawater_chemistry_21099.png	FIGURE 1.1	0.297115
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	T_4935	image	textbook_images/transition_metals_23128.png	FIGURE 1.2 Other properties of the transition metals are unique. They are the only elements that may use electrons in the next to highestas well as the highestenergy level as valence electrons. Valence electrons are the electrons that form bonds with other elements in compounds and that generally determine the properties of elements. Transition metals are unusual in having very similar properties even with different numbers of valence electrons. The transition metals also include the only elements that produce a magnetic field. Three of them have this property: iron (Fe), cobalt (Co), and nickel (Ni).	0.295392
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	T_4935	image	textbook_images/transition_metals_23127.png	FIGURE 1.1	0.295392
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	T_4030	image	textbook_images/covalent_bonds_22597.png	FIGURE 7.8 An oxygen atom has a more stable arrangement of electrons when it forms covalent bonds with two hydrogen atoms.	0.29473
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	T_3927	image	textbook_images/types_of_matter_22524.png	FIGURE 3.10 Water is a compound that forms molecules. Each water molecule consists of two atoms of hydrogen (white) and one atom of oxygen (red).	0.293461
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	T_4790	image	textbook_images/recognizing_chemical_reactions_23053.png	FIGURE 1.2	0.291517
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	T_0669	text	null	Most water on Earth, like the water in the oceans, contains elements. The elements are mixed evenly through the water. Water plus other substances makes a solution. The particles are so small that they will not come out when you filter the water. But the elements in water can form solid mineral deposits.	0.714705
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	T_4018	text	null	Water (H2 O) is an example of a chemical compound. Water molecules always consist of two atoms of hydrogen and one atom of oxygen. Like water, all other chemical compounds consist of a fixed ratio of elements. It doesnt matter how much or how little of a compound there is. It always has the same composition.	0.696737
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	T_2237	text	null	All known matter can be divided into a little more than 100 different substances called elements.	0.693318
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	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.	0.688304
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	T_0164	text	null	You know that ocean water is salty. But do you know why? How salty is it?	0.683414
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	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.	0.681912
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	T_1443	text	null	Water on Earth, such as the water in the oceans, contains chemical elements mixed into a solution. Various processes can cause these elements to combine to form solid mineral deposits.	0.68112
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	T_1467	text	null	Organic substances are the carbon-based compounds made by living creatures and include proteins, carbohydrates, and oils. Inorganic substances have a structure that is not characteristic of living bodies. Coal is made of plant and animal remains. Is it a mineral? Coal is a classified as a sedimentary rock, but is not a mineral.	0.680816
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	T_1593	text	null	Most of Earths water is stored in the oceans, where it can remain for hundreds or thousands of years.	0.668175
NDQ_018465	which of the following substances is least soluble in water?	null	a. table salt, b. table sugar, c. baking soda, d. Epsom salt	c	T_0147	text	null	Freshwater below Earths surface is called groundwater. The water infiltrates, or seeps down into, the ground from the surface. How does this happen? And where does the water go?	0.667952

NDQ_018461

for a given solvent, all solutes have the same solubility.

null

a. true, b. false

b

DQ_011501

image

question_images/states_of_matter_7614.png

states_of_matter_7614.png

0.292803

NDQ_018461

for a given solvent, all solutes have the same solubility.

null

a. true, b. false

b

T_4810

image

textbook_images/saturation_23062.png

FIGURE 1.1

0.272163

NDQ_018461

for a given solvent, all solutes have the same solubility.

null

a. true, b. false

b

T_3513

image

textbook_images/solubility_and_concentration_22212.png

FIGURE 10.2 This graph shows the amount of different solids that can dissolve in 1 L of water at 20 degrees C.

0.270576

NDQ_018461

for a given solvent, all solutes have the same solubility.

null

a. true, b. false

b

DQ_011479

image

abc_question_images/states_of_matter_17613.png

states_of_matter_17613.png

0.264352

NDQ_018461

for a given solvent, all solutes have the same solubility.

null

a. true, b. false

b

DQ_011497

image

question_images/states_of_matter_7613.png

states_of_matter_7613.png

0.264274

NDQ_018461

for a given solvent, all solutes have the same solubility.

null

a. true, b. false

b

DQ_011633

image

question_images/evaporation_and_sublimation_8083.png

evaporation_and_sublimation_8083.png

0.256821

NDQ_018461

for a given solvent, all solutes have the same solubility.

null

a. true, b. false

b

DQ_011540

image

question_images/states_of_matter_9257.png

states_of_matter_9257.png

0.252623

NDQ_018461

for a given solvent, all solutes have the same solubility.

null

a. true, b. false

b

DQ_011664

image

question_images/state_change_7604.png

state_change_7604.png

0.252607

NDQ_018461

for a given solvent, all solutes have the same solubility.

null

a. true, b. false

b

T_4894

image

textbook_images/states_of_matter_23100.png

FIGURE 1.2

0.252091

NDQ_018461

for a given solvent, all solutes have the same solubility.

null

a. true, b. false

b

T_3515

image

textbook_images/solubility_and_concentration_22213.png

FIGURE 10.3 Temperature affects the solubility of a solute. However, it affects the solubility of gases differently than the solubility of solids and liquids.

0.251618

NDQ_018461

for a given solvent, all solutes have the same solubility.

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.

0.749826

NDQ_018461

for a given solvent, all solutes have the same solubility.

null

a. true, b. false

b

T_4715

text

null

Compare and contrast the basic properties of matter, such as mass and volume.

0.74268

NDQ_018461

for a given solvent, all solutes have the same solubility.

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.

0.740255

NDQ_018461

for a given solvent, all solutes have the same solubility.

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.

0.727369

NDQ_018461

for a given solvent, all solutes have the same solubility.

null

a. true, b. false

b

T_1447

text

null

Minerals are divided into groups based on chemical composition. Most minerals fit into one of eight mineral groups.

0.718841

NDQ_018461

for a given solvent, all solutes have the same solubility.

null

a. true, b. false

b

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.

0.717208

NDQ_018461

for a given solvent, all solutes have the same solubility.

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.

0.705266

NDQ_018461

for a given solvent, all solutes have the same solubility.

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.

0.701429

NDQ_018461

for a given solvent, all solutes have the same solubility.

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.

0.700301

NDQ_018461

for a given solvent, all solutes have the same solubility.

null

a. true, b. false

b

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.

0.696787

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

T_3510

image

textbook_images/introduction_to_solutions_22211.png

FIGURE 10.1 These two diagrams show how an ionic compound (salt) and a covalent compound (sugar) dissolve in a solvent (water). MEDIA Click image to the left or use the URL below. URL: https://www.ck12.org/flx/render/embeddedobject/5004

0.307794

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

T_4279

image

textbook_images/convection_22749.png

FIGURE 1.1

0.296453

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

T_3961

image

textbook_images/changes_of_state_22556.png

FIGURE 4.23 Solid carbon dioxide changes directly to the gaseous state.

0.292631

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

T_4633

image

textbook_images/modern_periodic_table_22960.png

FIGURE 1.2

0.292446

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

T_4790

image

textbook_images/recognizing_chemical_reactions_23053.png

FIGURE 1.2

0.289798

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

T_3702

image

textbook_images/transfer_of_thermal_energy_22362.png

FIGURE 18.8 Convection currents carry thermal energy throughout the soup in the pot.

0.288831

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

DQ_011639

image

question_images/state_change_7600.png

state_change_7600.png

0.288172

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

T_3515

image

textbook_images/solubility_and_concentration_22214.png

FIGURE 10.4 Soda fizzes when carbon dioxide comes out of solution. Which do you think will fizz more, warm soda or cold soda?

0.283645

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

T_4495

image

textbook_images/heat_22879.png

FIGURE 1.2

0.282435

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

T_3381

image

textbook_images/scientific_theories_22130.png

FIGURE 1.1 Water going upward against gravity.

0.279454

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

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.

0.718609

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

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.

0.693997

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

T_4715

text

null

Compare and contrast the basic properties of matter, such as mass and volume.

0.684257

NDQ_018462

less sugar can dissolve in cold water than in hot water.

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.

0.67973

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

T_1593

text

null

Most of Earths water is stored in the oceans, where it can remain for hundreds or thousands of years.

0.674845

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

T_3491

text

null

Vitamins and minerals are also nutrients. They do not provide energy, but they are needed for good health.

0.672581

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

T_4783

text

null

Stirring a solute into a solvent speeds up the rate of dissolving because it helps distribute the solute particles throughout the solvent. For example, when you add sugar to iced tea and then stir the tea, the sugar will dissolve faster. If you dont stir the iced tea, the sugar may eventually dissolve, but it will take much longer.

0.670888

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

T_0133

text

null

Did you ever wonder where the water in your glass came from or where its been? The next time you take a drink of water, think about this. Each water molecule has probably been around for billions of years. Thats because Earths water is constantly recycled.

0.670716

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

T_4018

text

null

Water (H2 O) is an example of a chemical compound. Water molecules always consist of two atoms of hydrogen and one atom of oxygen. Like water, all other chemical compounds consist of a fixed ratio of elements. It doesnt matter how much or how little of a compound there is. It always has the same composition.

0.665885

NDQ_018462

less sugar can dissolve in cold water than in hot water.

null

a. true, b. false

a

T_3953

text

null

Think about how you would make ice cubes in a tray. First you would fill the tray with water from a tap. Then you would place the tray in the freezer compartment of a refrigerator. The freezer is very cold. What happens next?

0.664189

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

T_4279

image

textbook_images/convection_22749.png

FIGURE 1.1

0.331115

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

DQ_011639

image

question_images/state_change_7600.png

state_change_7600.png

0.323008

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

T_4633

image

textbook_images/modern_periodic_table_22960.png

FIGURE 1.2

0.316734

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

DQ_011608

image

question_images/evaporation_and_sublimation_8078.png

evaporation_and_sublimation_8078.png

0.315812

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

DQ_011657

image

question_images/state_change_7603.png

state_change_7603.png

0.302353

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

T_4272

image

textbook_images/conservation_of_mass_22747.png

FIGURE 1.1

0.298791

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

T_3936

image

textbook_images/changes_in_matter_22533.png

FIGURE 3.19 Burning is a chemical process. Is mass destroyed when wood burns?

0.298791

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

T_0089

image

textbook_images/absolute_ages_of_rocks_20066.png

FIGURE 11.16 Carbon-14 forms in the atmosphere. It combines with oxygen and forms carbon dioxide. How does carbon-14 end up in fossils?

0.298116

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

T_4834

image

textbook_images/scientific_theory_23070.png

FIGURE 1.1

0.297751

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

DQ_011633

image

question_images/evaporation_and_sublimation_8083.png

evaporation_and_sublimation_8083.png

0.296577

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

T_0959

text

null

The short term cycling of carbon begins with carbon dioxide (CO2 ) in the atmosphere.

0.742947

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

T_1593

text

null

Most of Earths water is stored in the oceans, where it can remain for hundreds or thousands of years.

0.703047

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

T_0966

text

null

Why is such a small amount of carbon dioxide in the atmosphere even important? Carbon dioxide is a greenhouse gas. Greenhouse gases trap heat energy that would otherwise radiate out into space, which warms Earth. These gases were discussed in the chapter Atmospheric Processes.

0.688553

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

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.

0.686698

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

T_1443

text

null

Water on Earth, such as the water in the oceans, contains chemical elements mixed into a solution. Various processes can cause these elements to combine to form solid mineral deposits.

0.683507

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

T_0669

text

null

Most water on Earth, like the water in the oceans, contains elements. The elements are mixed evenly through the water. Water plus other substances makes a solution. The particles are so small that they will not come out when you filter the water. But the elements in water can form solid mineral deposits.

0.678893

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

T_0721

text

null

Natural gas is mostly methane.

0.674836

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

T_0311

text

null

Earths climate has changed many times through Earths history. Its been both hotter and colder than it is today.

0.67431

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

T_1600

text

null

Water pollution can be reduced in two ways: Keep the water from becoming polluted. Clean water that is already polluted.

0.673758

NDQ_018463

less carbon dioxide can dissolve in cold water than in hot water.

null

a. true, b. false

b

T_1050

text

null

Atmospheric CO2 has increased over the past five decades, because the amount of CO2 gas released by volcanoes has increased.

0.672402

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

DQ_011501

image

question_images/states_of_matter_7614.png

states_of_matter_7614.png

0.319438

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

T_4180

image

textbook_images/boyles_law_22686.png

FIGURE 1.1

0.296492

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

T_3947

image

textbook_images/behavior_of_gases_22545.png

FIGURE 4.12 As the volume of a gas increases, its pressure decreases.

0.289611

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

T_3515

image

textbook_images/solubility_and_concentration_22213.png

FIGURE 10.3 Temperature affects the solubility of a solute. However, it affects the solubility of gases differently than the solubility of solids and liquids.

0.285906

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

T_4863

image

textbook_images/solubility_23085.png

FIGURE 1.1

0.285654

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

T_0980

image

textbook_images/chemical_bonding_20654.png

FIGURE 1.4 Water is a polar molecule. Because the oxygen atom has the electrons most of the time, the hydrogen side (blue) of the molecule has a slightly positive charge while the oxygen side (red) has a slightly negative charge.

0.284598

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

T_0287

image

textbook_images/weather_forecasting_20178.png

FIGURE 16.23 The greater the air pressure outside the tube, the higher the mercury rises inside the tube. Mercury can rise in the tube because theres no air pressing down on it.

0.282569

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

DQ_011497

image

question_images/states_of_matter_7613.png

states_of_matter_7613.png

0.278953

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

DQ_011479

image

abc_question_images/states_of_matter_17613.png

states_of_matter_17613.png

0.27621

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

DQ_011671

image

question_images/state_change_7608.png

state_change_7608.png

0.274894

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

T_4715

text

null

Compare and contrast the basic properties of matter, such as mass and volume.

0.74381

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

T_3946

text

null

For a given amount of gas, scientists have discovered that the pressure, volume, and temperature of a gas are related in certain ways. Because these relationships always hold in nature, they are called laws. The laws are named for the scientists that discovered them.

0.729723

NDQ_018464

increasing the pressure on a gas increases its solubility.

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.

0.728178

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

T_0959

text

null

The short term cycling of carbon begins with carbon dioxide (CO2 ) in the atmosphere.

0.723882

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

T_0721

text

null

Natural gas is mostly methane.

0.714483

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

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.

0.708704

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

T_2237

text

null

All known matter can be divided into a little more than 100 different substances called elements.

0.699347

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

T_1447

text

null

Minerals are divided into groups based on chemical composition. Most minerals fit into one of eight mineral groups.

0.696263

NDQ_018464

increasing the pressure on a gas increases its solubility.

null

a. true, b. false

a

T_0638

text

null

To understand minerals, we must first understand matter. Matter is the substance that physical objects are made of.

0.691776

NDQ_018464

increasing the pressure on a gas increases its solubility.

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.

0.690916

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

T_3513

image

textbook_images/solubility_and_concentration_22212.png

FIGURE 10.2 This graph shows the amount of different solids that can dissolve in 1 L of water at 20 degrees C.

0.321598

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

T_4810

image

textbook_images/saturation_23062.png

FIGURE 1.1

0.320868

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

DQ_011633

image

question_images/evaporation_and_sublimation_8083.png

evaporation_and_sublimation_8083.png

0.306756

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

DQ_011501

image

question_images/states_of_matter_7614.png

states_of_matter_7614.png

0.297323

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

T_1675

image

textbook_images/seawater_chemistry_21099.png

FIGURE 1.1

0.297115

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

T_4935

image

textbook_images/transition_metals_23128.png

FIGURE 1.2 Other properties of the transition metals are unique. They are the only elements that may use electrons in the next to highestas well as the highestenergy level as valence electrons. Valence electrons are the electrons that form bonds with other elements in compounds and that generally determine the properties of elements. Transition metals are unusual in having very similar properties even with different numbers of valence electrons. The transition metals also include the only elements that produce a magnetic field. Three of them have this property: iron (Fe), cobalt (Co), and nickel (Ni).

0.295392

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

T_4935

image

textbook_images/transition_metals_23127.png

FIGURE 1.1

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NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

T_4030

image

textbook_images/covalent_bonds_22597.png

FIGURE 7.8 An oxygen atom has a more stable arrangement of electrons when it forms covalent bonds with two hydrogen atoms.

0.29473

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

T_3927

image

textbook_images/types_of_matter_22524.png

FIGURE 3.10 Water is a compound that forms molecules. Each water molecule consists of two atoms of hydrogen (white) and one atom of oxygen (red).

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NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

T_4790

image

textbook_images/recognizing_chemical_reactions_23053.png

FIGURE 1.2

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NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

T_0669

text

null

Most water on Earth, like the water in the oceans, contains elements. The elements are mixed evenly through the water. Water plus other substances makes a solution. The particles are so small that they will not come out when you filter the water. But the elements in water can form solid mineral deposits.

0.714705

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

T_4018

text

null

Water (H2 O) is an example of a chemical compound. Water molecules always consist of two atoms of hydrogen and one atom of oxygen. Like water, all other chemical compounds consist of a fixed ratio of elements. It doesnt matter how much or how little of a compound there is. It always has the same composition.

0.696737

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

T_2237

text

null

All known matter can be divided into a little more than 100 different substances called elements.

0.693318

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

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.

0.688304

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

T_0164

text

null

You know that ocean water is salty. But do you know why? How salty is it?

0.683414

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

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.

0.681912

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

T_1443

text

null

Water on Earth, such as the water in the oceans, contains chemical elements mixed into a solution. Various processes can cause these elements to combine to form solid mineral deposits.

0.68112

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

T_1467

text

null

Organic substances are the carbon-based compounds made by living creatures and include proteins, carbohydrates, and oils. Inorganic substances have a structure that is not characteristic of living bodies. Coal is made of plant and animal remains. Is it a mineral? Coal is a classified as a sedimentary rock, but is not a mineral.

0.680816

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

T_1593

text

null

Most of Earths water is stored in the oceans, where it can remain for hundreds or thousands of years.

0.668175

NDQ_018465

which of the following substances is least soluble in water?

null

a. table salt, b. table sugar, c. baking soda, d. Epsom salt

c

T_0147

text

null

Freshwater below Earths surface is called groundwater. The water infiltrates, or seeps down into, the ground from the surface. How does this happen? And where does the water go?

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