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L_0931 | isomers | T_4554 | FIGURE 1.1 | image | textbook_images/isomers_22907.png |
L_0931 | isomers | T_4554 | FIGURE 1.2 | image | textbook_images/isomers_22908.png |
L_0931 | isomers | T_4554 | FIGURE 1.3 | image | textbook_images/isomers_22909.png |
L_0931 | isomers | T_4554 | FIGURE 1.4 | image | textbook_images/isomers_22910.png |
L_0932 | isotopes | T_4558 | FIGURE 1.1 | image | textbook_images/isotopes_22911.png |
L_0933 | kinetic energy | T_4561 | FIGURE 1.1 | image | textbook_images/kinetic_energy_22912.png |
L_0934 | kinetic theory of matter | T_4563 | FIGURE 1.1 | image | textbook_images/kinetic_theory_of_matter_22914.png |
L_0936 | law of reflection | T_4567 | FIGURE 1.1 | image | textbook_images/law_of_reflection_22916.png |
L_0936 | law of reflection | T_4567 | FIGURE 1.2 | image | textbook_images/law_of_reflection_22917.png |
L_0937 | lens | T_4570 | FIGURE 1.1 | image | textbook_images/lens_22920.png |
L_0938 | lever | T_4575 | FIGURE 1.1 | image | textbook_images/lever_22921.png |
L_0939 | light | T_4577 | FIGURE 1.1 | image | textbook_images/light_22922.png |
L_0939 | light | T_4579 | FIGURE 1.2 Visible light spectrum. | image | textbook_images/light_22923.png |
L_0939 | light | T_4580 | FIGURE 1.3 | image | textbook_images/light_22924.png |
L_0940 | lipid classification | T_4582 | FIGURE 1.1 | image | textbook_images/lipid_classification_22925.png |
L_0940 | lipid classification | T_4582 | FIGURE 1.2 | image | textbook_images/lipid_classification_22926.png |
L_0940 | lipid classification | T_4583 | FIGURE 1.3 | image | textbook_images/lipid_classification_22927.png |
L_0942 | longitudinal wave | T_4586 | FIGURE 1.1 | image | textbook_images/longitudinal_wave_22932.png |
L_0942 | longitudinal wave | T_4588 | FIGURE 1.2 | image | textbook_images/longitudinal_wave_22933.png |
L_0943 | magnetic field reversal | T_4589 | FIGURE 1.1 | image | textbook_images/magnetic_field_reversal_22934.png |
L_0943 | magnetic field reversal | T_4590 | FIGURE 1.2 | image | textbook_images/magnetic_field_reversal_22935.png |
L_0944 | magnets | T_4592 | FIGURE 1.1 | image | textbook_images/magnets_22936.png |
L_0944 | magnets | T_4592 | FIGURE 1.2 | image | textbook_images/magnets_22937.png |
L_0944 | magnets | T_4592 | FIGURE 1.3 | image | textbook_images/magnets_22938.png |
L_0946 | mechanical advantage | T_4598 | FIGURE 1.1 | image | textbook_images/mechanical_advantage_22939.png |
L_0947 | mechanical wave | T_4602 | FIGURE 1.1 | image | textbook_images/mechanical_wave_22940.png |
L_0949 | mendeleevs periodic table | T_4606 | FIGURE 1.1 | image | textbook_images/mendeleevs_periodic_table_22942.png |
L_0949 | mendeleevs periodic table | T_4607 | FIGURE 1.2 | image | textbook_images/mendeleevs_periodic_table_22943.png |
L_0950 | metallic bonding | T_4610 | FIGURE 1.1 Metallic bonds. | image | textbook_images/metallic_bonding_22944.png |
L_0950 | metallic bonding | T_4610 | FIGURE 1.2 Metal worker shaping iron metal. | image | textbook_images/metallic_bonding_22945.png |
L_0951 | metalloids | T_4612 | FIGURE 1.1 | image | textbook_images/metalloids_22946.png |
L_0951 | metalloids | T_4613 | FIGURE 1.2 | image | textbook_images/metalloids_22947.png |
L_0952 | metals | T_4615 | FIGURE 1.1 | image | textbook_images/metals_22948.png |
L_0953 | microwaves | T_4617 | FIGURE 1.1 | image | textbook_images/microwaves_22949.png |
L_0953 | microwaves | T_4619 | FIGURE 1.2 | image | textbook_images/microwaves_22950.png |
L_0953 | microwaves | T_4620 | FIGURE 1.3 | image | textbook_images/microwaves_22951.png |
L_0954 | mirrors | T_4622 | FIGURE 1.1 | image | textbook_images/mirrors_22952.png |
L_0954 | mirrors | T_4623 | FIGURE 1.2 | image | textbook_images/mirrors_22953.png |
L_0954 | mirrors | T_4624 | FIGURE 1.3 | image | textbook_images/mirrors_22954.png |
L_0954 | mirrors | T_4624 | FIGURE 1.4 | image | textbook_images/mirrors_22955.png |
L_0956 | modern periodic table | T_4630 | FIGURE 1.1 | image | textbook_images/modern_periodic_table_22959.png |
L_0956 | modern periodic table | T_4633 | FIGURE 1.2 | image | textbook_images/modern_periodic_table_22960.png |
L_0957 | molecular compounds | T_4636 | FIGURE 1.1 | image | textbook_images/molecular_compounds_22961.png |
L_0958 | momentum | T_4638 | FIGURE 1.1 | image | textbook_images/momentum_22962.png |
L_0959 | motion | T_4641 | FIGURE 1.1 | image | textbook_images/motion_22963.png |
L_0959 | motion | T_4641 | FIGURE 1.2 Click image to the left or use the URL below. URL: https://www.ck12.org/flx/render/embeddedobject/5019 | image | textbook_images/motion_22964.png |
L_0960 | musical instruments | T_4643 | FIGURE 1.1 | image | textbook_images/musical_instruments_22965.png |
L_0963 | neutrons | T_4649 | FIGURE 1.1 | image | textbook_images/neutrons_22969.png |
L_0963 | neutrons | T_4651 | FIGURE 1.2 | image | textbook_images/neutrons_22970.png |
L_0964 | newtons first law | T_4653 | FIGURE 1.1 | image | textbook_images/newtons_first_law_22971.png |
L_0964 | newtons first law | T_4653 | FIGURE 1.2 | image | textbook_images/newtons_first_law_22972.png |
L_0964 | newtons first law | T_4655 | FIGURE 1.3 | image | textbook_images/newtons_first_law_22973.png |
L_0965 | newtons law of gravity | T_4658 | FIGURE 1.1 | image | textbook_images/newtons_law_of_gravity_22975.png |
L_0966 | newtons second law | T_4659 | FIGURE 1.1 | image | textbook_images/newtons_second_law_22976.png |
L_0967 | newtons third law | T_4662 | FIGURE 1.1 | image | textbook_images/newtons_third_law_22977.png |
L_0968 | noble gases | T_4664 | FIGURE 1.1 | image | textbook_images/noble_gases_22978.png |
L_0968 | noble gases | T_4667 | FIGURE 1.2 Q: How does argon prevent the problems of early light bulbs? | image | textbook_images/noble_gases_22979.png |
L_0968 | noble gases | T_4667 | FIGURE 1.3 | image | textbook_images/noble_gases_22980.png |
L_0969 | nonmetals | T_4670 | FIGURE 1.1 | image | textbook_images/nonmetals_22982.png |
L_0969 | nonmetals | T_4670 | FIGURE 1.2 such as the metal lithium or sodium. As a result, fluorine is highly reactive. In fact, reactions with fluorine are often explosive. Neon, on the other hand, already has a full outer energy level. It is already very stable and never reacts with other elements. It neither accepts nor gives up electrons. Neon doesnt even react with fluorine, which reacts with all other elements except helium. | image | textbook_images/nonmetals_22983.png |
L_0970 | nuclear fission | T_4672 | FIGURE 1.1 | image | textbook_images/nuclear_fission_22984.png |
L_0970 | nuclear fission | T_4673 | FIGURE 1.2 | image | textbook_images/nuclear_fission_22985.png |
L_0970 | nuclear fission | T_4675 | FIGURE 1.3 | image | textbook_images/nuclear_fission_22986.png |
L_0970 | nuclear fission | T_4675 | FIGURE 1.4 | image | textbook_images/nuclear_fission_22987.png |
L_0971 | nuclear fusion | T_4677 | FIGURE 1.1 Nuclear Fusion | image | textbook_images/nuclear_fusion_22988.png |
L_0971 | nuclear fusion | T_4678 | FIGURE 1.2 | image | textbook_images/nuclear_fusion_22989.png |
L_0971 | nuclear fusion | T_4679 | FIGURE 1.3 | image | textbook_images/nuclear_fusion_22990.png |
L_0972 | nucleic acid classification | T_4681 | FIGURE 1.1 | image | textbook_images/nucleic_acid_classification_22991.png |
L_0972 | nucleic acid classification | T_4683 | FIGURE 1.2 | image | textbook_images/nucleic_acid_classification_22992.png |
L_0976 | optical instruments | T_4692 | FIGURE 1.1 | image | textbook_images/optical_instruments_22996.png |
L_0976 | optical instruments | T_4693 | FIGURE 1.2 | image | textbook_images/optical_instruments_22997.png |
L_0976 | optical instruments | T_4694 | FIGURE 1.3 | image | textbook_images/optical_instruments_22998.png |
L_0976 | optical instruments | T_4695 | FIGURE 1.4 | image | textbook_images/optical_instruments_22999.png |
L_0976 | optical instruments | T_4695 | FIGURE 1.5 | image | textbook_images/optical_instruments_23000.png |
L_0976 | optical instruments | T_4696 | FIGURE 1.6 | image | textbook_images/optical_instruments_23001.png |
L_0977 | orbital motion | T_4698 | FIGURE 1.1 | image | textbook_images/orbital_motion_23002.png |
L_0977 | orbital motion | T_4698 | FIGURE 1.2 | image | textbook_images/orbital_motion_23003.png |
L_0979 | ph concept | T_4705 | FIGURE 1.1 | image | textbook_images/ph_concept_23007.png |
L_0979 | ph concept | T_4706 | FIGURE 1.2 | image | textbook_images/ph_concept_23008.png |
L_0979 | ph concept | T_4706 | FIGURE 1.3 | image | textbook_images/ph_concept_23009.png |
L_0980 | photosynthesis reactions | T_4708 | FIGURE 1.1 | image | textbook_images/photosynthesis_reactions_23010.png |
L_0980 | photosynthesis reactions | T_4708 | FIGURE 1.2 The green streaks on this very blue lake are photosynthetic bacteria called cyanobacteria. | image | textbook_images/photosynthesis_reactions_23011.png |
L_0985 | position time graphs | T_4726 | FIGURE 1.1 | image | textbook_images/position_time_graphs_23020.png |
L_0985 | position time graphs | T_4726 | FIGURE 1.2 | image | textbook_images/position_time_graphs_23021.png |
L_0986 | potential energy | T_4729 | FIGURE 1.1 | image | textbook_images/potential_energy_23022.png |
L_0986 | potential energy | T_4731 | FIGURE 1.2 | image | textbook_images/potential_energy_23023.png |
L_0986 | potential energy | T_4731 | FIGURE 1.3 | image | textbook_images/potential_energy_23024.png |
L_0987 | power | T_4732 | FIGURE 1.1 | image | textbook_images/power_23025.png |
L_0987 | power | T_4735 | FIGURE 1.2 | image | textbook_images/power_23026.png |
L_0987 | power | T_4735 | FIGURE 1.3 | image | textbook_images/power_23027.png |
L_0989 | projectile motion | T_4742 | FIGURE 1.1 | image | textbook_images/projectile_motion_23031.png |
L_0989 | projectile motion | T_4742 | FIGURE 1.2 | image | textbook_images/projectile_motion_23032.png |
L_0989 | projectile motion | T_4742 | FIGURE 1.3 | image | textbook_images/projectile_motion_23033.png |
L_0990 | properties of acids | T_4744 | FIGURE 1.1 Hydrochloric acid reacting with the metal zinc. | image | textbook_images/properties_of_acids_23034.png |
L_0990 | properties of acids | T_4745 | FIGURE 1.2 | image | textbook_images/properties_of_acids_23035.png |
L_0990 | properties of acids | T_4747 | FIGURE 1.3 Nitric acid and Phosphoric acid: Both nitric acid and phosphoric acid are used to make fertilizer. Hydrochloric acid: Hy- drochloric acid is used to clean swimming pools, bricks, and concrete. Sulfuric acid: Sulfuric Acid is an important component of car batteries. | image | textbook_images/properties_of_acids_23036.png |
L_0991 | properties of bases | T_4750 | FIGURE 1.1 | image | textbook_images/properties_of_bases_23037.png |
L_0991 | properties of bases | T_4752 | FIGURE 1.2 | image | textbook_images/properties_of_bases_23038.png |
L_0992 | properties of electromagnetic waves | T_4754 | FIGURE 1.1 | image | textbook_images/properties_of_electromagnetic_waves_23039.png |
L_0994 | protein classification | T_4760 | FIGURE 1.1 | image | textbook_images/protein_classification_23042.png |
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