Hessa/val_dataset_tqa · Datasets at Hugging Face

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NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	DD_0235	image	teaching_images/states_of_matter_9256.png	The image below shows Gases, Liquids, and Solids. Gases, liquids and solids are all made up of atoms, molecules, and/or ions, but the behaviors of these particles differ in the three phases. Gas assumes the shape and volume of its container particles can move past one another. Liquid also assumes the shape of the part of the container which it occupies particles can move/slide past one another. while solids retains a fixed volume and shape rigid - particles locked into place	0.286657
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	T_3747	image	textbook_images/science_skills_22397.png	FIGURE 2.6 This cylinder contains about 66 mL of liquid. What would the measure- ment be if you read the top of the meniscus by mistake? MEDIA Click image to the left or use the URL below. URL: https://www.ck12.org/flx/render/embeddedobject/5036	0.286044
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	DD_0234	image	teaching_images/states_of_matter_9253.png	There are three states of matter. These three states include solid, liquid, and gas. Solid states of matter are rigid and have a fixed shape and fixed volume. They cannot be squashed. Liquid states of matter are not rigid and have no fixed shape, but have a fixed volume. They too cannot be squashed. Gas states of matter are not rigid and have no fixed shape and no fixed volume. This state of matter can be squashed.	0.283458
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	DQ_011490	image	abc_question_images/states_of_matter_19255.png	states_of_matter_19255.png	0.28268
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	T_4894	image	textbook_images/states_of_matter_23100.png	FIGURE 1.2	0.281432
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	DQ_011501	image	question_images/states_of_matter_7614.png	states_of_matter_7614.png	0.277351
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	T_0207	image	textbook_images/the_atmosphere_20136.png	FIGURE 15.4 This drawing represents a column of air. The column rises from sea level to the top of the atmosphere. Where does air have the greatest density?	0.276653
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	DQ_011479	image	abc_question_images/states_of_matter_17613.png	states_of_matter_17613.png	0.27627
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	DQ_011534	image	question_images/states_of_matter_9255.png	states_of_matter_9255.png	0.272502
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	T_4826	image	textbook_images/scientific_measuring_devices_23065.png	FIGURE 1.1	0.271884
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	T_4715	text	null	Compare and contrast the basic properties of matter, such as mass and volume.	0.589861
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	T_4644	text	null	Science is more about gaining knowledge than it is about simply having knowledge. Science is a way of learning about the natural world that is based on evidence and logic. In other words, science is a process, not just a body of facts. Through the process of science, our knowledge of the world advances.	0.581758
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	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.	0.580902
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	T_0205	text	null	We usually cant sense the air around us unless it is moving. But air has the same basic properties as other matter. For example, air has mass, volume and, of course, density.	0.572319
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	T_3750	text	null	Doing science often requires calculations. Converting units is just one example. Calculations are also needed to find derived quantities.	0.565929
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	T_4593	text	null	Matter is all the stuff that exists in the universe. Everything you can see and touch is made of matter, including you! The only things that arent matter are forms of energy, such as light and sound. In science, matter is defined as anything that has mass and volume. Mass and volume measure different aspects of matter.	0.559534
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	T_3918	text	null	Some properties of matter can be measured or observed only when matter undergoes a change to become an entirely different substance. These properties are called chemical properties. They include flammability and reactivity.	0.557208
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	T_4889	text	null	The speed of sound is the distance that sound waves travel in a given amount of time. Youll often see the speed of sound given as 343 meters per second. But thats just the speed of sound under a certain set of conditions, specifically, through dry air at 20 C. The speed of sound may be very different through other matter or at other temperatures.	0.555188
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	b	T_4830	text	null	Investigations are at the heart of science. They are how scientists add to scientific knowledge and gain a better understanding of the world. Scientific investigations produce evidence that helps answer questions. Even if the evidence cannot provide answers, it may still be useful. It may lead to new questions for investigation. As more knowledge is discovered, science advances.	0.55358
NDQ_018337	in science, volume may be measured in	null	a. cups., b. milliliters., c. centimeters., d. kilograms.	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.	0.550503
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	DQ_011320	image	question_images/circuits_1580.png	circuits_1580.png	0.319822
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	DQ_011379	image	question_images/circuits_226.png	circuits_226.png	0.308907
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	DQ_011306	image	question_images/circuits_1569.png	circuits_1569.png	0.307966
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	DQ_011322	image	question_images/circuits_1583.png	circuits_1583.png	0.306523
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	T_4341	image	textbook_images/electric_circuits_22783.png	FIGURE 1.1	0.306081
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	DQ_011360	image	question_images/circuits_217.png	circuits_217.png	0.302561
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	T_3868	image	textbook_images/electric_circuits_22477.png	FIGURE 23.16 A circuit must be closed for electric de- vices such as light bulbs to work. The arrows in the diagram show the direction in which electrons flow through the circuit. The current is considered to flow in the opposite direction.	0.301729
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	DQ_011290	image	question_images/circuits_1553.png	circuits_1553.png	0.300862
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	DQ_011253	image	question_images/circuits_1061.png	circuits_1061.png	0.299683
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	DQ_011313	image	question_images/circuits_1574.png	circuits_1574.png	0.295311
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	T_4844	text	null	An electric circuit consists of at least one closed loop through which electric current can flow. Every circuit has a voltage source such as a battery and a conductor such as metal wire. A circuit may have other parts as well, such as lights and switches. In addition, a circuit may consist of one loop or two loops.	0.830764
NDQ_018409	all electric circuits consist of at least one closed loop.	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.	0.698374
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	T_3871	text	null	We use electricity for many purposes. Devices such as lights, stoves, and stereos all use electricity and convert it to energy in other forms. However, devices may vary in how quickly they change electricity to other forms of energy.	0.696541
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	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.	0.692197
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	T_4367	text	null	Electricity originates in power plants. They have electric generators that produce electricity by electromagnetic induction. In this process, a changing magnetic field is used to generate electric current. The generators convert kinetic energy to electrical energy. The kinetic energy may come from flowing water, burning fuel, wind, or some other energy source.	0.691816
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	T_4343	text	null	Electrical energy is transmitted by moving electrons in an electric current. In order to travel, electric current needs matter. It cannot pass through empty space. However, matter resists the flow of electric current. Thats because flowing electrons in current collide with particles of matter, which absorb their energy. Some types of matter offer more or less resistance to electric current than others.	0.684394
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	T_3907	text	null	Two important devices depend on electromagnetic induction: electric generators and electric transformers. Both devices play critical roles in producing and regulating the electric current we depend on in our daily lives.	0.675991
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	T_0726	text	null	Nuclear energy is produced by splitting the nucleus of an atom. This releases a huge amount of energy.	0.664246
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	T_2746	text	null	Like all organisms, bacteria need energy, and they can acquire this energy through a number of different ways.	0.660945
NDQ_018409	all electric circuits consist of at least one closed loop.	null	a. true, b. false	a	T_0959	text	null	The short term cycling of carbon begins with carbon dioxide (CO2 ) in the atmosphere.	0.648727
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	DQ_011253	image	question_images/circuits_1061.png	circuits_1061.png	0.335685
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	DQ_011283	image	question_images/circuits_1545.png	circuits_1545.png	0.316751
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	DQ_011306	image	question_images/circuits_1569.png	circuits_1569.png	0.299354
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	DQ_011247	image	question_images/circuits_1058.png	circuits_1058.png	0.295616
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	DQ_011333	image	question_images/circuits_1612.png	circuits_1612.png	0.294264
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	DQ_012551	image	question_images/waves_interactions_interference_8230.png	waves_interactions_interference_8230.png	0.292588
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	T_0980	image	textbook_images/chemical_bonding_20652.png	FIGURE 1.2	0.290949
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	T_0980	image	textbook_images/chemical_bonding_20651.png	FIGURE 1.1	0.290949
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	DQ_011369	image	question_images/circuits_222.png	circuits_222.png	0.290847
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	DQ_011320	image	question_images/circuits_1580.png	circuits_1580.png	0.289807
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	T_4844	text	null	An electric circuit consists of at least one closed loop through which electric current can flow. Every circuit has a voltage source such as a battery and a conductor such as metal wire. A circuit may have other parts as well, such as lights and switches. In addition, a circuit may consist of one loop or two loops.	0.689175
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two 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.	0.588131
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	T_3907	text	null	Two important devices depend on electromagnetic induction: electric generators and electric transformers. Both devices play critical roles in producing and regulating the electric current we depend on in our daily lives.	0.574438
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	T_4343	text	null	Electrical energy is transmitted by moving electrons in an electric current. In order to travel, electric current needs matter. It cannot pass through empty space. However, matter resists the flow of electric current. Thats because flowing electrons in current collide with particles of matter, which absorb their energy. Some types of matter offer more or less resistance to electric current than others.	0.565226
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	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.	0.561053
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	T_0726	text	null	Nuclear energy is produced by splitting the nucleus of an atom. This releases a huge amount of energy.	0.551283
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	T_3871	text	null	We use electricity for many purposes. Devices such as lights, stoves, and stereos all use electricity and convert it to energy in other forms. However, devices may vary in how quickly they change electricity to other forms of energy.	0.54623
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above	d	T_0959	text	null	The short term cycling of carbon begins with carbon dioxide (CO2 ) in the atmosphere.	0.546212
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two 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.	0.545665
NDQ_018412	what happens if a one-loop circuit is interrupted at any point?	null	a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two 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.	0.545051
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	DQ_011317	image	question_images/circuits_1579.png	circuits_1579.png	0.323099
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	DQ_011328	image	question_images/circuits_1610.png	circuits_1610.png	0.319798
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	DQ_011374	image	question_images/circuits_223.png	circuits_223.png	0.309476
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	DQ_011297	image	question_images/circuits_1564.png	circuits_1564.png	0.304563
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	DQ_011273	image	question_images/circuits_1535.png	circuits_1535.png	0.30451
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	DQ_011306	image	question_images/circuits_1569.png	circuits_1569.png	0.304261
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	DQ_011340	image	question_images/circuits_1616.png	circuits_1616.png	0.301673
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	DQ_011392	image	question_images/circuits_653.png	circuits_653.png	0.300734
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	DQ_011253	image	question_images/circuits_1061.png	circuits_1061.png	0.295012
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	DQ_011320	image	question_images/circuits_1580.png	circuits_1580.png	0.294835
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	T_4844	text	null	An electric circuit consists of at least one closed loop through which electric current can flow. Every circuit has a voltage source such as a battery and a conductor such as metal wire. A circuit may have other parts as well, such as lights and switches. In addition, a circuit may consist of one loop or two loops.	0.747939
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	T_3871	text	null	We use electricity for many purposes. Devices such as lights, stoves, and stereos all use electricity and convert it to energy in other forms. However, devices may vary in how quickly they change electricity to other forms of energy.	0.706371
NDQ_018413	series circuits are no longer in use any more.	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.	0.680153
NDQ_018413	series circuits are no longer in use any more.	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.	0.658822
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	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.	0.657275
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	T_3874	text	null	Electricity is dangerous. Contact with electric current can cause severe burns and even death. Electricity can also cause serious fires. A common cause of electric hazards and fires is a short circuit.	0.656205
NDQ_018413	series circuits are no longer in use any more.	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.	0.65559
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	T_3907	text	null	Two important devices depend on electromagnetic induction: electric generators and electric transformers. Both devices play critical roles in producing and regulating the electric current we depend on in our daily lives.	0.650992
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	T_4715	text	null	Compare and contrast the basic properties of matter, such as mass and volume.	0.646938
NDQ_018413	series circuits are no longer in use any more.	null	a. true, b. false	b	T_4999	text	null	Wave speed is the distance a wave travels in a given amount of time, such as the number of meters it travels per second. Wave speed (and speed in general) can be represented by the equation: Speed = Distance Time	0.643993
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	DQ_011253	image	question_images/circuits_1061.png	circuits_1061.png	0.330661
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	DQ_011247	image	question_images/circuits_1058.png	circuits_1058.png	0.31074
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	DQ_011283	image	question_images/circuits_1545.png	circuits_1545.png	0.30864
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	DQ_011306	image	question_images/circuits_1569.png	circuits_1569.png	0.294841
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	DQ_011313	image	question_images/circuits_1574.png	circuits_1574.png	0.291016
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	DQ_011273	image	question_images/circuits_1535.png	circuits_1535.png	0.291012
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	DQ_011251	image	question_images/circuits_1060.png	circuits_1060.png	0.290499
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	T_3906	image	textbook_images/generating_and_using_electricity_22509.png	FIGURE 25.10 If a magnet is moved back and forth rela- tive to a coil of wire, alternating current is produced.	0.288434
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	T_4377	image	textbook_images/electromagnetic_induction_22801.png	FIGURE 1.2	0.286143
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	DQ_011245	image	question_images/circuits_1057.png	circuits_1057.png	0.286099
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	T_4844	text	null	An electric circuit consists of at least one closed loop through which electric current can flow. Every circuit has a voltage source such as a battery and a conductor such as metal wire. A circuit may have other parts as well, such as lights and switches. In addition, a circuit may consist of one loop or two loops.	0.701758
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	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.	0.604042
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	T_3907	text	null	Two important devices depend on electromagnetic induction: electric generators and electric transformers. Both devices play critical roles in producing and regulating the electric current we depend on in our daily lives.	0.590935
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	T_4343	text	null	Electrical energy is transmitted by moving electrons in an electric current. In order to travel, electric current needs matter. It cannot pass through empty space. However, matter resists the flow of electric current. Thats because flowing electrons in current collide with particles of matter, which absorb their energy. Some types of matter offer more or less resistance to electric current than others.	0.580627
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	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.	0.570957
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	T_0959	text	null	The short term cycling of carbon begins with carbon dioxide (CO2 ) in the atmosphere.	0.559679
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	T_0726	text	null	Nuclear energy is produced by splitting the nucleus of an atom. This releases a huge amount of energy.	0.558277
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	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.	0.556574
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	T_3871	text	null	We use electricity for many purposes. Devices such as lights, stoves, and stereos all use electricity and convert it to energy in other forms. However, devices may vary in how quickly they change electricity to other forms of energy.	0.555699
NDQ_018415	what happens if one loop of a two-loop circuit is interrupted at any point?	null	a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above	a	T_4367	text	null	Electricity originates in power plants. They have electric generators that produce electricity by electromagnetic induction. In this process, a changing magnetic field is used to generate electric current. The generators convert kinetic energy to electrical energy. The kinetic energy may come from flowing water, burning fuel, wind, or some other energy source.	0.554843

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

DD_0235

image

teaching_images/states_of_matter_9256.png

The image below shows Gases, Liquids, and Solids. Gases, liquids and solids are all made up of atoms, molecules, and/or ions, but the behaviors of these particles differ in the three phases. Gas assumes the shape and volume of its container particles can move past one another. Liquid also assumes the shape of the part of the container which it occupies particles can move/slide past one another. while solids retains a fixed volume and shape rigid - particles locked into place

0.286657

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

T_3747

image

textbook_images/science_skills_22397.png

FIGURE 2.6 This cylinder contains about 66 mL of liquid. What would the measure- ment be if you read the top of the meniscus by mistake? MEDIA Click image to the left or use the URL below. URL: https://www.ck12.org/flx/render/embeddedobject/5036

0.286044

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

DD_0234

image

teaching_images/states_of_matter_9253.png

There are three states of matter. These three states include solid, liquid, and gas. Solid states of matter are rigid and have a fixed shape and fixed volume. They cannot be squashed. Liquid states of matter are not rigid and have no fixed shape, but have a fixed volume. They too cannot be squashed. Gas states of matter are not rigid and have no fixed shape and no fixed volume. This state of matter can be squashed.

0.283458

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

DQ_011490

image

abc_question_images/states_of_matter_19255.png

states_of_matter_19255.png

0.28268

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

T_4894

image

textbook_images/states_of_matter_23100.png

FIGURE 1.2

0.281432

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

DQ_011501

image

question_images/states_of_matter_7614.png

states_of_matter_7614.png

0.277351

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

T_0207

image

textbook_images/the_atmosphere_20136.png

FIGURE 15.4 This drawing represents a column of air. The column rises from sea level to the top of the atmosphere. Where does air have the greatest density?

0.276653

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

DQ_011479

image

abc_question_images/states_of_matter_17613.png

states_of_matter_17613.png

0.27627

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

DQ_011534

image

question_images/states_of_matter_9255.png

states_of_matter_9255.png

0.272502

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

T_4826

image

textbook_images/scientific_measuring_devices_23065.png

FIGURE 1.1

0.271884

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

T_4715

text

null

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

0.589861

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

T_4644

text

null

Science is more about gaining knowledge than it is about simply having knowledge. Science is a way of learning about the natural world that is based on evidence and logic. In other words, science is a process, not just a body of facts. Through the process of science, our knowledge of the world advances.

0.581758

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

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.

0.580902

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

T_0205

text

null

We usually cant sense the air around us unless it is moving. But air has the same basic properties as other matter. For example, air has mass, volume and, of course, density.

0.572319

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

T_3750

text

null

Doing science often requires calculations. Converting units is just one example. Calculations are also needed to find derived quantities.

0.565929

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

T_4593

text

null

Matter is all the stuff that exists in the universe. Everything you can see and touch is made of matter, including you! The only things that arent matter are forms of energy, such as light and sound. In science, matter is defined as anything that has mass and volume. Mass and volume measure different aspects of matter.

0.559534

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

T_3918

text

null

Some properties of matter can be measured or observed only when matter undergoes a change to become an entirely different substance. These properties are called chemical properties. They include flammability and reactivity.

0.557208

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

T_4889

text

null

The speed of sound is the distance that sound waves travel in a given amount of time. Youll often see the speed of sound given as 343 meters per second. But thats just the speed of sound under a certain set of conditions, specifically, through dry air at 20 C. The speed of sound may be very different through other matter or at other temperatures.

0.555188

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

b

T_4830

text

null

Investigations are at the heart of science. They are how scientists add to scientific knowledge and gain a better understanding of the world. Scientific investigations produce evidence that helps answer questions. Even if the evidence cannot provide answers, it may still be useful. It may lead to new questions for investigation. As more knowledge is discovered, science advances.

0.55358

NDQ_018337

in science, volume may be measured in

null

a. cups., b. milliliters., c. centimeters., d. kilograms.

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.

0.550503

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

DQ_011320

image

question_images/circuits_1580.png

circuits_1580.png

0.319822

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

DQ_011379

image

question_images/circuits_226.png

circuits_226.png

0.308907

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

DQ_011306

image

question_images/circuits_1569.png

circuits_1569.png

0.307966

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

DQ_011322

image

question_images/circuits_1583.png

circuits_1583.png

0.306523

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

T_4341

image

textbook_images/electric_circuits_22783.png

FIGURE 1.1

0.306081

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

DQ_011360

image

question_images/circuits_217.png

circuits_217.png

0.302561

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

T_3868

image

textbook_images/electric_circuits_22477.png

FIGURE 23.16 A circuit must be closed for electric de- vices such as light bulbs to work. The arrows in the diagram show the direction in which electrons flow through the circuit. The current is considered to flow in the opposite direction.

0.301729

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

DQ_011290

image

question_images/circuits_1553.png

circuits_1553.png

0.300862

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

DQ_011253

image

question_images/circuits_1061.png

circuits_1061.png

0.299683

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

DQ_011313

image

question_images/circuits_1574.png

circuits_1574.png

0.295311

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

T_4844

text

null

An electric circuit consists of at least one closed loop through which electric current can flow. Every circuit has a voltage source such as a battery and a conductor such as metal wire. A circuit may have other parts as well, such as lights and switches. In addition, a circuit may consist of one loop or two loops.

0.830764

NDQ_018409

all electric circuits consist of at least one closed loop.

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.

0.698374

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

T_3871

text

null

We use electricity for many purposes. Devices such as lights, stoves, and stereos all use electricity and convert it to energy in other forms. However, devices may vary in how quickly they change electricity to other forms of energy.

0.696541

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

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.

0.692197

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

T_4367

text

null

Electricity originates in power plants. They have electric generators that produce electricity by electromagnetic induction. In this process, a changing magnetic field is used to generate electric current. The generators convert kinetic energy to electrical energy. The kinetic energy may come from flowing water, burning fuel, wind, or some other energy source.

0.691816

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

T_4343

text

null

Electrical energy is transmitted by moving electrons in an electric current. In order to travel, electric current needs matter. It cannot pass through empty space. However, matter resists the flow of electric current. Thats because flowing electrons in current collide with particles of matter, which absorb their energy. Some types of matter offer more or less resistance to electric current than others.

0.684394

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

T_3907

text

null

Two important devices depend on electromagnetic induction: electric generators and electric transformers. Both devices play critical roles in producing and regulating the electric current we depend on in our daily lives.

0.675991

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

T_0726

text

null

Nuclear energy is produced by splitting the nucleus of an atom. This releases a huge amount of energy.

0.664246

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

T_2746

text

null

Like all organisms, bacteria need energy, and they can acquire this energy through a number of different ways.

0.660945

NDQ_018409

all electric circuits consist of at least one closed loop.

null

a. true, b. false

a

T_0959

text

null

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

0.648727

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

DQ_011253

image

question_images/circuits_1061.png

circuits_1061.png

0.335685

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

DQ_011283

image

question_images/circuits_1545.png

circuits_1545.png

0.316751

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

DQ_011306

image

question_images/circuits_1569.png

circuits_1569.png

0.299354

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

DQ_011247

image

question_images/circuits_1058.png

circuits_1058.png

0.295616

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

DQ_011333

image

question_images/circuits_1612.png

circuits_1612.png

0.294264

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

DQ_012551

image

question_images/waves_interactions_interference_8230.png

waves_interactions_interference_8230.png

0.292588

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

T_0980

image

textbook_images/chemical_bonding_20652.png

FIGURE 1.2

0.290949

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

T_0980

image

textbook_images/chemical_bonding_20651.png

FIGURE 1.1

0.290949

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

DQ_011369

image

question_images/circuits_222.png

circuits_222.png

0.290847

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

DQ_011320

image

question_images/circuits_1580.png

circuits_1580.png

0.289807

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

T_4844

text

null

An electric circuit consists of at least one closed loop through which electric current can flow. Every circuit has a voltage source such as a battery and a conductor such as metal wire. A circuit may have other parts as well, such as lights and switches. In addition, a circuit may consist of one loop or two loops.

0.689175

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two 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.

0.588131

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

T_3907

text

null

Two important devices depend on electromagnetic induction: electric generators and electric transformers. Both devices play critical roles in producing and regulating the electric current we depend on in our daily lives.

0.574438

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

T_4343

text

null

Electrical energy is transmitted by moving electrons in an electric current. In order to travel, electric current needs matter. It cannot pass through empty space. However, matter resists the flow of electric current. Thats because flowing electrons in current collide with particles of matter, which absorb their energy. Some types of matter offer more or less resistance to electric current than others.

0.565226

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

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.

0.561053

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

T_0726

text

null

Nuclear energy is produced by splitting the nucleus of an atom. This releases a huge amount of energy.

0.551283

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

T_3871

text

null

We use electricity for many purposes. Devices such as lights, stoves, and stereos all use electricity and convert it to energy in other forms. However, devices may vary in how quickly they change electricity to other forms of energy.

0.54623

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two of the above

d

T_0959

text

null

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

0.546212

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two 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.

0.545665

NDQ_018412

what happens if a one-loop circuit is interrupted at any point?

null

a. No current will flow through the circuit., b. No devices in the circuit will work., c. The current will flow more slowly through the circuit., d. two 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.

0.545051

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

DQ_011317

image

question_images/circuits_1579.png

circuits_1579.png

0.323099

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

DQ_011328

image

question_images/circuits_1610.png

circuits_1610.png

0.319798

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

DQ_011374

image

question_images/circuits_223.png

circuits_223.png

0.309476

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

DQ_011297

image

question_images/circuits_1564.png

circuits_1564.png

0.304563

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

DQ_011273

image

question_images/circuits_1535.png

circuits_1535.png

0.30451

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

DQ_011306

image

question_images/circuits_1569.png

circuits_1569.png

0.304261

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

DQ_011340

image

question_images/circuits_1616.png

circuits_1616.png

0.301673

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

DQ_011392

image

question_images/circuits_653.png

circuits_653.png

0.300734

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

DQ_011253

image

question_images/circuits_1061.png

circuits_1061.png

0.295012

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

DQ_011320

image

question_images/circuits_1580.png

circuits_1580.png

0.294835

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

T_4844

text

null

An electric circuit consists of at least one closed loop through which electric current can flow. Every circuit has a voltage source such as a battery and a conductor such as metal wire. A circuit may have other parts as well, such as lights and switches. In addition, a circuit may consist of one loop or two loops.

0.747939

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

T_3871

text

null

We use electricity for many purposes. Devices such as lights, stoves, and stereos all use electricity and convert it to energy in other forms. However, devices may vary in how quickly they change electricity to other forms of energy.

0.706371

NDQ_018413

series circuits are no longer in use any more.

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.

0.680153

NDQ_018413

series circuits are no longer in use any more.

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.

0.658822

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

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.

0.657275

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

T_3874

text

null

Electricity is dangerous. Contact with electric current can cause severe burns and even death. Electricity can also cause serious fires. A common cause of electric hazards and fires is a short circuit.

0.656205

NDQ_018413

series circuits are no longer in use any more.

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.

0.65559

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

T_3907

text

null

Two important devices depend on electromagnetic induction: electric generators and electric transformers. Both devices play critical roles in producing and regulating the electric current we depend on in our daily lives.

0.650992

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

T_4715

text

null

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

0.646938

NDQ_018413

series circuits are no longer in use any more.

null

a. true, b. false

b

T_4999

text

null

Wave speed is the distance a wave travels in a given amount of time, such as the number of meters it travels per second. Wave speed (and speed in general) can be represented by the equation: Speed = Distance Time

0.643993

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

DQ_011253

image

question_images/circuits_1061.png

circuits_1061.png

0.330661

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

DQ_011247

image

question_images/circuits_1058.png

circuits_1058.png

0.31074

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

DQ_011283

image

question_images/circuits_1545.png

circuits_1545.png

0.30864

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

DQ_011306

image

question_images/circuits_1569.png

circuits_1569.png

0.294841

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

DQ_011313

image

question_images/circuits_1574.png

circuits_1574.png

0.291016

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

DQ_011273

image

question_images/circuits_1535.png

circuits_1535.png

0.291012

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

DQ_011251

image

question_images/circuits_1060.png

circuits_1060.png

0.290499

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

T_3906

image

textbook_images/generating_and_using_electricity_22509.png

FIGURE 25.10 If a magnet is moved back and forth rela- tive to a coil of wire, alternating current is produced.

0.288434

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

T_4377

image

textbook_images/electromagnetic_induction_22801.png

FIGURE 1.2

0.286143

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

DQ_011245

image

question_images/circuits_1057.png

circuits_1057.png

0.286099

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

T_4844

text

null

An electric circuit consists of at least one closed loop through which electric current can flow. Every circuit has a voltage source such as a battery and a conductor such as metal wire. A circuit may have other parts as well, such as lights and switches. In addition, a circuit may consist of one loop or two loops.

0.701758

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

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.

0.604042

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

T_3907

text

null

Two important devices depend on electromagnetic induction: electric generators and electric transformers. Both devices play critical roles in producing and regulating the electric current we depend on in our daily lives.

0.590935

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

T_4343

text

null

Electrical energy is transmitted by moving electrons in an electric current. In order to travel, electric current needs matter. It cannot pass through empty space. However, matter resists the flow of electric current. Thats because flowing electrons in current collide with particles of matter, which absorb their energy. Some types of matter offer more or less resistance to electric current than others.

0.580627

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

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.

0.570957

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

T_0959

text

null

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

0.559679

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

T_0726

text

null

Nuclear energy is produced by splitting the nucleus of an atom. This releases a huge amount of energy.

0.558277

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

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.

0.556574

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

T_3871

text

null

We use electricity for many purposes. Devices such as lights, stoves, and stereos all use electricity and convert it to energy in other forms. However, devices may vary in how quickly they change electricity to other forms of energy.

0.555699

NDQ_018415

what happens if one loop of a two-loop circuit is interrupted at any point?

null

a. Current will still flow through the other loop., b. Current will stop flowing through the other loop., c. The other loop will become overloaded and burn out., d. two of the above

a

T_4367

text

null

Electricity originates in power plants. They have electric generators that produce electricity by electromagnetic induction. In this process, a changing magnetic field is used to generate electric current. The generators convert kinetic energy to electrical energy. The kinetic energy may come from flowing water, burning fuel, wind, or some other energy source.

0.554843