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L_0855 | density | T_4306 | FIGURE 1.1 A bowling ball is denser than a volleyball. Although both balls are similar in size, the bowling ball feels much heavier than the volleyball. | image | textbook_images/density_22765.png |
L_0856 | deposition | T_4309 | FIGURE 1.1 | image | textbook_images/deposition_22766.png |
L_0856 | deposition | T_4309 | FIGURE 1.2 | image | textbook_images/deposition_22767.png |
L_0860 | discovery of electromagnetism | T_4318 | FIGURE 1.1 | image | textbook_images/discovery_of_electromagnetism_22770.png |
L_0867 | electric charge and electric force | T_4339 | FIGURE 1.1 | image | textbook_images/electric_charge_and_electric_force_22781.png |
L_0867 | electric charge and electric force | T_4339 | FIGURE 1.2 | image | textbook_images/electric_charge_and_electric_force_22782.png |
L_0868 | electric circuits | T_4341 | FIGURE 1.1 | image | textbook_images/electric_circuits_22783.png |
L_0868 | electric circuits | T_4342 | FIGURE 1.2 The circuit diagram in the middle repre- sents the circuit drawing on the left. On the right are some of the standard sym- bols used in circuit diagrams. Q: Only one of the circuit symbols in the Figure 1.2 must be included in every circuit. Which symbol is it? | image | textbook_images/electric_circuits_22784.png |
L_0869 | electric conductors and insulators | T_4346 | FIGURE 1.1 | image | textbook_images/electric_conductors_and_insulators_22785.png |
L_0870 | electric current | T_4349 | FIGURE 1.1 | image | textbook_images/electric_current_22786.png |
L_0871 | electric fields | T_4351 | FIGURE 1.1 | image | textbook_images/electric_fields_22787.png |
L_0871 | electric fields | T_4351 | FIGURE 1.2 Note: +q = positive charge and -q = negative charge | image | textbook_images/electric_fields_22788.png |
L_0872 | electric generators | T_4354 | FIGURE 1.1 When wood burns, it changes to ashes, carbon dioxide, water vapor, and other gases. You can see ashes in the wood fire pictured here. The gases are invisible. | image | textbook_images/electric_generators_22789.png |
L_0875 | electric safety | T_4361 | FIGURE 1.1 | image | textbook_images/electric_safety_22790.png |
L_0875 | electric safety | T_4362 | FIGURE 1.2 of plastic but so is the entire device. The old toaster pictured in the Figure 1.1 lacks this safety feature, but most modern toasters have a plastic casing. This reduces the risk of current leaving the device except through the cord. | image | textbook_images/electric_safety_22791.png |
L_0876 | electric transformers | T_4364 | FIGURE 1.1 | image | textbook_images/electric_transformers_22792.png |
L_0876 | electric transformers | T_4365 | FIGURE 1.2 | image | textbook_images/electric_transformers_22793.png |
L_0876 | electric transformers | T_4365 | FIGURE 1.3 | image | textbook_images/electric_transformers_22794.png |
L_0877 | electrical grid | T_4368 | FIGURE 1.1 | image | textbook_images/electrical_grid_22795.png |
L_0877 | electrical grid | T_4369 | FIGURE 1.2 | image | textbook_images/electrical_grid_22796.png |
L_0878 | electromagnet | T_4372 | FIGURE 1.1 | image | textbook_images/electromagnet_22797.png |
L_0879 | electromagnetic devices | T_4374 | FIGURE 1.1 | image | textbook_images/electromagnetic_devices_22798.png |
L_0880 | electromagnetic induction | T_4377 | FIGURE 1.1 | image | textbook_images/electromagnetic_induction_22800.png |
L_0880 | electromagnetic induction | T_4377 | FIGURE 1.2 | image | textbook_images/electromagnetic_induction_22801.png |
L_0883 | electromagnetism | T_4388 | FIGURE 1.1 | image | textbook_images/electromagnetism_22806.png |
L_0885 | electronic component | T_4394 | FIGURE 1.1 | image | textbook_images/electronic_component_22810.png |
L_0885 | electronic component | T_4395 | FIGURE 1.2 | image | textbook_images/electronic_component_22811.png |
L_0885 | electronic component | T_4396 | FIGURE 1.3 | image | textbook_images/electronic_component_22812.png |
L_0885 | electronic component | T_4397 | FIGURE 1.4 | image | textbook_images/electronic_component_22813.png |
L_0886 | electronic device | T_4399 | FIGURE 1.1 | image | textbook_images/electronic_device_22814.png |
L_0887 | electronic signal | T_4402 | FIGURE 1.1 | image | textbook_images/electronic_signal_22815.png |
L_0887 | electronic signal | T_4402 | FIGURE 1.2 | image | textbook_images/electronic_signal_22816.png |
L_0896 | evaporation | T_4432 | FIGURE 1.1 | image | textbook_images/evaporation_22833.png |
L_0896 | evaporation | T_4434 | FIGURE 1.2 | image | textbook_images/evaporation_22834.png |
L_0903 | freezing | T_4451 | FIGURE 1.1 | image | textbook_images/freezing_22849.png |
L_0941 | liquids | T_4584 | FIGURE 1.1 | image | textbook_images/liquids_22928.png |
L_0941 | liquids | T_4585 | FIGURE 1.2 | image | textbook_images/liquids_22929.png |
L_0941 | liquids | T_4585 | FIGURE 1.3 A: The viscosity of honey and chocolate syrup vary by brand and other factors, but chocolate syrup generally is more viscous than honey. | image | textbook_images/liquids_22930.png |
L_0948 | melting | T_4603 | FIGURE 1.1 | image | textbook_images/melting_22941.png |
L_0955 | mixtures | T_4625 | FIGURE 1.1 | image | textbook_images/mixtures_22957.png |
L_0955 | mixtures | T_4628 | FIGURE 1.2 | image | textbook_images/mixtures_22958.png |
L_0981 | physical change | T_4709 | FIGURE 1.1 | image | textbook_images/physical_change_23013.png |
L_0982 | physical properties of matter | T_4712 | FIGURE 1.1 | image | textbook_images/physical_properties_of_matter_23015.png |
L_0982 | physical properties of matter | T_4712 | FIGURE 1.2 | image | textbook_images/physical_properties_of_matter_23016.png |
L_0982 | physical properties of matter | T_4712 | FIGURE 1.3 | image | textbook_images/physical_properties_of_matter_23017.png |
L_0984 | plasma | T_4722 | FIGURE 1.1 A bowling ball is denser than a volleyball. Although both balls are similar in size, the bowling ball feels much heavier than the volleyball. | image | textbook_images/plasma_23019.png |
L_0993 | properties of solutions | T_4757 | FIGURE 1.1 | image | textbook_images/properties_of_solutions_23040.png |
L_0993 | properties of solutions | T_4757 | FIGURE 1.2 | image | textbook_images/properties_of_solutions_23041.png |
L_1001 | rate of dissolving | T_4785 | FIGURE 1.1 | image | textbook_images/rate_of_dissolving_23050.png |
L_1004 | refraction | T_4792 | FIGURE 1.1 Click image to the left or use the URL below. URL: https://www.ck12.org/flx/render/embeddedobject/179078 | image | textbook_images/refraction_23055.png |
L_1010 | saturation | T_4810 | FIGURE 1.1 | image | textbook_images/saturation_23062.png |
L_1015 | scientific measuring devices | T_4826 | FIGURE 1.1 | image | textbook_images/scientific_measuring_devices_23065.png |
L_1015 | scientific measuring devices | T_4826 | FIGURE 1.2 | image | textbook_images/scientific_measuring_devices_23066.png |
L_1015 | scientific measuring devices | T_4826 | FIGURE 1.3 | image | textbook_images/scientific_measuring_devices_23067.png |
L_1026 | solenoid | T_4858 | FIGURE 1.1 | image | textbook_images/solenoid_23080.png |
L_1027 | solids | T_4861 | FIGURE 1.1 | image | textbook_images/solids_23082.png |
L_1027 | solids | T_4861 | FIGURE 1.2 | image | textbook_images/solids_23083.png |
L_1027 | solids | T_4861 | FIGURE 1.3 | image | textbook_images/solids_23084.png |
L_1028 | solubility | T_4863 | FIGURE 1.1 | image | textbook_images/solubility_23085.png |
L_1029 | solute and solvent | T_4866 | FIGURE 1.1 To dissolve a nonpolar solute such as oil-based paint, a nonpolar solvent such as paint thinner must be used. | image | textbook_images/solute_and_solvent_23086.png |
L_1029 | solute and solvent | T_4868 | FIGURE 1.2 | image | textbook_images/solute_and_solvent_23087.png |
L_1031 | solutions | T_4872 | FIGURE 1.1 | image | textbook_images/solutions_23089.png |
L_1031 | solutions | T_4874 | FIGURE 1.2 | image | textbook_images/solutions_23090.png |
L_1031 | solutions | T_4874 | FIGURE 1.3 | image | textbook_images/solutions_23091.png |
L_1037 | states of matter | T_4894 | FIGURE 1.1 | image | textbook_images/states_of_matter_23099.png |
L_1037 | states of matter | T_4894 | FIGURE 1.2 | image | textbook_images/states_of_matter_23100.png |
L_1047 | temperature | T_4918 | FIGURE 1.1 | image | textbook_images/temperature_23113.png |
L_0001 | the nature of science | T_0002 | FIGURE 1.1 The Scientific Method. | image | textbook_images/the_nature_of_science_20001.png |
L_0001 | the nature of science | T_0002 | FIGURE 1.2 Soil is often lost from ground that has been plowed. | image | textbook_images/the_nature_of_science_20002.png |
L_0001 | the nature of science | T_0003 | FIGURE 1.3 Rather than breaking up soil like in this picture, the farmer could try no-till farming methods. | image | textbook_images/the_nature_of_science_20003.png |
L_0001 | the nature of science | T_0006 | FIGURE 1.4 A pair of farmers take careful measure- ments in the field. | image | textbook_images/the_nature_of_science_20004.png |
L_0001 | the nature of science | T_0010 | FIGURE 1.5 Earths Center. | image | textbook_images/the_nature_of_science_20005.png |
L_0001 | the nature of science | T_0011 | FIGURE 1.6 A collision showing a meteor striking Earth. | image | textbook_images/the_nature_of_science_20006.png |
L_0001 | the nature of science | T_0013 | FIGURE 1.7 Safety Symbols: A. Corrosive , B. Oxidiz- ing Agent, C. Toxic, D. High Voltage. | image | textbook_images/the_nature_of_science_20007.png |
L_0001 | the nature of science | T_0014 | FIGURE 1.8 A medical researcher protects herself and her work with a net cap, safety goggles, a mask, and gloves. | image | textbook_images/the_nature_of_science_20008.png |
L_0005 | erosion and deposition by wind | T_0046 | FIGURE 10.21 Wind transports particles in different ways depending on their size (left). A dust storm in the Middle East (right). | image | textbook_images/erosion_and_deposition_by_wind_20038.png |
L_0005 | erosion and deposition by wind | T_0049 | FIGURE 10.22 Sand blown by fierce winds have carved this rock in to an interesting shape. | image | textbook_images/erosion_and_deposition_by_wind_20039.png |
L_0005 | erosion and deposition by wind | T_0049 | FIGURE 10.23 Sand dunes form where the wind deposits sand. (A) Desert sand dunes. (B) Sand dunes line many beaches like this one in Australia. | image | textbook_images/erosion_and_deposition_by_wind_20040.png |
L_0005 | erosion and deposition by wind | T_0050 | FIGURE 10.24 A sand dune has a gentle slope on the side the wind blows from. The opposite side has a steep slope. This side is called the slip face. | image | textbook_images/erosion_and_deposition_by_wind_20041.png |
L_0005 | erosion and deposition by wind | T_0052 | FIGURE 10.25 Loess cliffs in Mississippi. | image | textbook_images/erosion_and_deposition_by_wind_20042.png |
L_0013 | history of earths life forms | T_0114 | FIGURE 12.10 (A) Peacocks have tremendous feather displays to attract mates. (B) The Namib Desert Beetle has bumps on its back for collecting water. (C) Octopuses use their eight arms to hold on to the ground, hold on to prey and to escape predators. (D) Saguaro cacti are adapted for conserving water in the desert. (E) A mountain hare is well camouflaged in snow in winter. | image | textbook_images/history_of_earths_life_forms_20078.png |
L_0013 | history of earths life forms | T_0118 | FIGURE 12.11 Genetic mutation is central to the creation of biological diversity. | image | textbook_images/history_of_earths_life_forms_20079.png |
L_0013 | history of earths life forms | T_0124 | FIGURE 12.12 Ancient horses were quite different from present-day horses. | image | textbook_images/history_of_earths_life_forms_20080.png |
L_0013 | history of earths life forms | T_0125 | FIGURE 12.13 Mudskippers are fish that are able to walk short distances. | image | textbook_images/history_of_earths_life_forms_20081.png |
L_0013 | history of earths life forms | T_0125 | FIGURE 12.14 Halkieria, or scale worms, are an example of a fossil life from the Cambrian. | image | textbook_images/history_of_earths_life_forms_20082.png |
L_0013 | history of earths life forms | T_0126 | FIGURE 12.15 Plesiosaurs were swimming dinosaurs. | image | textbook_images/history_of_earths_life_forms_20083.png |
L_0013 | history of earths life forms | T_0127 | FIGURE 12.16 (A) A sea dragon is a type of fish. (B) African maribou. (C) Elephant shrew. (D) A mountain gorilla mother holding her baby. (E) A dolphin pod. Era Millions of Years Ago 251 Major Forms of Life Age of dinosaurs begins | image | textbook_images/history_of_earths_life_forms_20084.png |
L_0024 | air movement | T_0240 | FIGURE 15.19 Differences in air temperature cause con- vection currents and wind. | image | textbook_images/air_movement_20151.png |
L_0024 | air movement | T_0242 | FIGURE 15.20 Land and sea breezes blow because of daily differences in heating. | image | textbook_images/air_movement_20152.png |
L_0024 | air movement | T_0243 | FIGURE 15.21 Monsoons blow over southern Asia. | image | textbook_images/air_movement_20153.png |
L_0024 | air movement | T_0244 | FIGURE 15.22 Global winds occur in belts around the globe. | image | textbook_images/air_movement_20154.png |
L_0024 | air movement | T_0247 | FIGURE 15.23 This jet stream helps planes fly quickly from west to east over North America. How do you think it affects planes that fly from east to west? | image | textbook_images/air_movement_20155.png |
L_0026 | changing weather | T_0263 | FIGURE 16.6 North American air masses. | image | textbook_images/changing_weather_20161.png |
L_0026 | changing weather | T_0266 | FIGURE 16.7 Cold fronts often bring stormy weather. | image | textbook_images/changing_weather_20162.png |
L_0026 | changing weather | T_0267 | FIGURE 16.8 Warm fronts generally bring cloudy weather. | image | textbook_images/changing_weather_20163.png |
L_0026 | changing weather | T_0268 | FIGURE 16.9 How does an occluded front differ from a warm or cold front? | image | textbook_images/changing_weather_20164.png |
L_0027 | storms | T_0271 | FIGURE 16.11 A coast guard officer looks for survivors of Hurricane Katrina. | image | textbook_images/storms_20166.png |
L_0027 | storms | T_0273 | FIGURE 16.12 A thunderhead is a cumulonimbus cloud. | image | textbook_images/storms_20167.png |
L_0027 | storms | T_0274 | FIGURE 16.13 Lightning flashes across an Arizona sun- set. | image | textbook_images/storms_20168.png |
L_0027 | storms | T_0276 | FIGURE 16.14 Tornadoes are small but mighty storms. | image | textbook_images/storms_20169.png |
Subsets and Splits