Standards at a Glance

Standards at a Glance NGSS The Next Generation Science Standards identify the key scientific ideas and practices that all students should learn by the time they graduate from high school. Each standard is written as a performance expectation that integrates three dimensions: a science and engineering practice (SEP), a disciplinary core idea (DCI), and a crosscutting concept (CCC). This blending of practices for doing science, content for knowing science, and overarching themes for connecting science is what makes the Next Generation Science Standards a unique shift in science education. Below you ll find a curriculum alignment for Pearson Physics to the Next Generation Science Standards for high school physical sciences and high school Earth and space sciences. Use this section, as well as the Lesson-by-Lesson Correlation on pages T11 T21, to help you in your transition to the new standards. Next Generation Science Standard HS-PS1 Matter and Its Interactions HS-PS1-1. Use the periodic table as a model to predict the relative properties of elements based on the patterns of electrons in the outermost energy level of atoms. HS-PS1-8. Develop models to illustrate the changes in the composition of the nucleus of the atom and the energy released during the processes of fission, fusion, and radioactive decay. Lesson/Feature Related: Lessons 25.1, 25.2 Lessons 26.1, 26.2, 26.3 HS-PS2 Motion and Stability: Forces and Interactions HS-PS2-1. Analyze data to support the claim that Newton s second law of motion describes the mathematical relationship among the net force on a macroscopic object, its mass, and its acceleration. HS-PS2-2. Use mathematical representations to support the claim that the total momentum of a system of objects is conserved when there is no net force on the system. Lessons 5.1, 5.2, 5.3 Related: Chapters 2, 3 Lessons 7.3, 7.4, 8.3 Chapter 7 Physics Lab T8 Next Generation Science Standards

Next Generation Science Standard HS-PS2 Motion and Stability: Forces and Interactions HS-PS2-3. Apply scientific and engineering ideas to design, evaluate, and refine a device that minimizes the force on a macroscopic object during a collision.* HS-PS2-4. Use mathematical representations of Newton s Law of Gravitation and Coulomb s Law to describe and predict the gravitational and electrostatic forces between objects. HS-PS2-5. Plan and conduct an investigation to provide evidence that an electric current can produce a magnetic field and that a changing magnetic field can produce an electric current. HS-PS2-6. Communicate scientific and technical information about why the molecular-level structure is important in the functioning of designed materials.* Lesson/Feature Related: Lesson 7.2 Lessons 9.1, 9.2, 19.2, 19.3 Chapter 19 Physics Lab Chapter 23 Physics Lab Related: Lessons 22.2, 23.1, 23.2, 23.3; Chapter 23 Inquiry Lab Related: Lessons 10.2, 12.4, 19.1, 21.1, 23.3 HS-PS3 Energy HS-PS3-1. Create a computational model to calculate the change in the energy of one component in a system when the change in energy of the other component(s) and energy flows in and out of the system are known. HS-PS3-2. Develop and use models to illustrate that energy at the macroscopic scale can be accounted for as either motions of particles or energy stored in fields. HS-PS3-3. Design, build, and refine a device that works within given constraints to convert one form of energy into another form of energy.* HS-PS3-4. Plan and conduct an investigation to provide evidence that the transfer of thermal energy when two components of different temperature are combined within a closed system results in a more uniform energy distribution among the components in the system (second law of thermodynamics). HS-PS3-5. Develop and use a model of two objects interacting through electric or magnetic fields to illustrate the forces between objects and the changes in energy of the objects due to the interaction. Related: Lessons 6.3, 10.3, 10.4, 11.1, 11.2, 20.2, Lessons 10.4, 12.1, 13.3, 14.1, 15.3, 20.2, 20.3, 25.2 Related: Lessons 6.4, 11.1, 11.2, 21.3, 23.2, 24.1; Chapter 11, 23 Physics Labs; Chapter 6, 9, 15, 23, 24 Physics & You features Related: Lesson 10.1, 11.3, Lessons 20.1, 20.2, 22.1, 22.2, 22.3, 23.1, 23.2 *The performance expectations marked with an asterisk integrate traditional science content with engineering through a Practice or Disciplinary Core Idea. Standards at a Glance T9

Standards at a Glance (continued) Next Generation Science Standard HS-PS4 Waves and Their Applications in Technologies for Information Transfer HS-PS4-1. Use mathematical representations to support a claim regarding relationships among the frequency, wavelength, and speed of waves traveling in various media. HS-PS4-2. Evaluate questions about the advantages of using a digital transmission and storage of information. HS-PS4-3. Evaluate the claims, evidence, and reasoning behind the idea that electromagnetic radiation can be described either by a wave model or a particle model, and that for some situations one model is more useful than the other. HS-PS4-4. Evaluate the validity and reliability of claims in published materials of the effects that different frequencies of electromagnetic radiation have when absorbed by matter. HS-PS4-5. Communicate technical information about how some technological devices use the principles of wave behavior and wave interactions with matter to transmit and capture information and energy.* Lesson/Feature Lessons 17.1, 17.2 Related: Lesson 14.1, Chapter 14 Physics Lab Related: Lessons 1.2, 15.2, 18.2 Lessons 15.1, 18.1, 18.3, 24.1, 24.2 Related: Lessons 10.2, 15.2 Lessons 14.1, 14.3, 15.2, 17.4, 18.2 Chapter 13, 14, 16, 18, 24 Physics & You features HS-ESS1 Earth s Place in the Universe HS-ESS1-4. Use mathematical or computational representations to predict the motion of orbiting objects in the solar system. Lesson 9.4 *The performance expectations marked with an asterisk integrate traditional science content with engineering through a Practice or Disciplinary Core Idea. T10 Next Generation Science Standards

Lesson-by-Lesson Correlation NGSS Use this section to help you map out learning experiences in physics that integrate the disciplinary core ideas (DCI), science and engineering practices (SEP), and crosscutting concepts (CCC). The Next Generation Science column lists relevant performance expectations, component DCIs, SEPs, and/or CCCs for each chapter in the Student Edition. The Common Core column lists relevant literacy and math standards. Reference codes used below correspond to those used in the Next Generation Science Standards; A Framework for K 12 Science Education; the Common Core State Standards for Literacy in History/ Social Studies, Science, and Technical Subjects; and the Common Core State Standards for Mathematics. Chapter 1 Introduction to Physics 1.1 Physics and the Scientific Method CCC 2, CCC 5 F.IF.B (p. 8) 1.2 Physics and Society ETS2.A 1.3 Units and Dimensions CCC 3 MP.2 (pp. 19 22) N.Q (pp. 19 22) 1.4 Basic Math for Physics SEP 5 (pp. 23, 27 30, 32) MP.2 (pp. 23 24) F.IF.B (pp. 27, 31 33) 1.5 Problem Solving in Physics SEP 5 Physics & You Atmospheric Modeling and Weather CCC 2, CCC 7 Prediction Physics Lab Measuring Devices and Units, CCC 1 RST.9-10.3 Chapter 2 Introduction to Motion 2.1 Describing Motion Core Idea PS2.A SEP 5 (p. 47) 2.2 Speed and Velocity Core Idea PS2.A SEP 5 (pp. 49, 40, 51, 52, 53) 2.3 Position-Time Graphs Core Idea PS2.A SEP 5 (pp. 56, 57) 2.4 Equation of Motion Core Idea PS2.A SEP 5 (pp. 59, 60, 61, 62) Physics & You Climate Modelers Core Idea ETS1.B, CCC 4 SEP 8 Physics Lab Position versus Time for a Constant- Velocity Car Core Idea PS2.A SEP 4, SEP 5, WHST.11-12.2 (p. 43) MP.2 (p. 47) MP.2 (pp. 49, 50, 51, 52, 53) RST.9-10.7 (pp. 56, 57) RST.9-10.7 (pp. 60, 62) A.CED.1 (p. 59) MP.2 (pp. 59, 62), MP.4 (p. 62) F.IF (p. 61) WHST.9-10.8, WHST.11-12.2, WHST.11-12.4, WHST.11-12.7 SL.9-10.2, SL.9-10.5 S.ID, F.BF, F.IF, MP.2, MP.4 Lesson-by-Lesson Correlation T11

Lesson-by-Lesson Correlation (continued) Chapter 3 Acceleration and Accelerated Motion 3.1 Acceleration Core Idea PS2.A, CCC 2 SEP 5 (pp. 75, 81) 3.2 Motion with Constant Acceleration Core Idea PS2.A SEP 5 (pp. 83 91) 3.3 Position-Time Graphs for Constant Acceleration Core Idea PS2.A SEP 5 (pp. 94 96) 3.4 Free Fall Core Idea PS2.A SEP 5 (pp. 99 101) Physics & You Microbursts Core Idea ETS1.A, SEP 8 Physics Lab Investigating Acceleration Core Idea PS2.A, CCC 2, CCC 4 SEP 4, SEP 5 Chapter 4 Motion in Two Dimensions 4.1 Vectors in Physics Core Idea PS2.A SEP 5 (pp. 116 120) 4.2 Adding and Subtracting Vectors Core Idea PS2.A SEP 5 (pp. 124 126) 4.3 Relative Motion Core Idea PS2.A, CCC 4 SEP 5 (pp. 127 131) 4.4 Projectile Motion Core Idea PS2.A, CCC 4 SEP 5 (pp. 132 140) Physics & You Global Positioning Systems Core Ideas ETS1.B, ETS1.C SEP 8 Physics Lab Projectile Motion Core Idea PS2.A RST.9-10.7 (pp. 74, 77, 79, 81), (p. 73) (p. 73) MP.2 (pp. 75, 76, 78, 81) F.IF.B (pp. 78, 80, 81) RST.9-10.7 (pp. 89 91) MP.2 (pp. 83 91) F.IF.B (pp. 82 91) MP.2 (pp. 94 96) F.IF.B (pp. 92 96) MP.2 (pp. 99 101) F.IF.B (pp. 99 101) WHST.9-10.8, WHST.11-12.2, WHST.11-12.4, WHST.11-12.7 SL.9-10.2, SL.9-10.5 S.ID, (p. 113), RST.9-10.7 (pp. 114 120) F.IF.B (pp. 114 120) (p. 113) MP.2 (pp. 116 120) RST.9-10.7 (pp. 121 126) F.IF.B (pp. 121 126) MP.2 (pp. 121 126) RST.9-10.7 (pp. 127 131) F.IF.B (pp. 127 131) MP.2 (pp. 127 131) RST.9-10.7 (pp. 132 140) F.IF.B (pp. 132 140) MP.2 (pp. 132 140) WHST.11-12.2, WHST.11-12.4 S.ID,, MP.2 T12 Next Generation Science Standards

Chapter 5 Newton s Laws of Motion 5.1 Newton s Laws of Motion HS-PS2-1 Core Idea PS2.A, CCC 2 SEP 5 (pp. 157 159) 5.2 Applying Newton s Laws HS-PS2-1 Core Idea PS2.A, CCC 2 SEP 5 (pp. 162, 164, 166 169) 5.3 Friction HS-PS2-1 Core Idea PS2.A, CCC 2 SEP 5 (pp. 172, 174 176) Physics & You Earthquake Scientists and Engineers Core Idea ETS1.A Physics Lab Static and Kinetic Friction Core Idea PS2.A SEP 4, Chapter 6 Work and Energy 6.1 Work Core Idea PS3.A, CCC 4 SEP 2 (pp. 191, 193, 196), SEP 5 (pp. 191, 193 194) 6.2 Work and Energy Core Idea PS3.A, CCC 4 SEP 5 (pp. 197 206) 6.3 Conservation of Energy Core Idea PS3.B, CCC 4 SEP 5 (pp. 208 211) 6.4 Power Core Idea PS3.B SEP 5 (pp. 212 216) Physics & You Hybrid Vehicles Core Idea ETS1.A Physics Lab Investigating Work on Inclined Planes Core Idea PS3.B Chapter 7 Linear Momentum and Collisions 7.1 Momentum Core Idea PS2.B, CCC 2 SEP 4 (p. 229), SEP 5 (pp. 212 216), (p. 229) 7.2 Impulse Core Idea PS2.B, CCC 2 SEP 5 (pp. 234 241) 7.3 Conservation of Momentum HS-PS2-2 Core Idea PS2.B, CCC 4 SEP 5 (pp. 243, 245, 247) 7.4 Collisions HS-PS2-2 Core Idea PS2.B, CCC 4 SEP 5 (pp. 251 254, 256) Physics & You Ballistic Pendulum Core Idea ETS1.C SEP 3 Physics Lab Momentum Conservation during a Collision HS-PS2-2, CCC 4 Core Idea PS2.B SEP 4, SEP 7 (p. 151) (pp. 151, 153) F.IF.B (pp. 155 160) MP.2 (pp. 155 160) A.CED.1 (pp. 157, 159) F.IF.B (pp. 162 169) MP.2 (pp. 162 169) A.CED.1 (pp. 164, 169) MP.2 (pp. 172, 174 176) F.IF.B (pp. 172 175) RST.9-10.7, S.ID,, MP.2 (p. 189) (p. 189) MP.2 (pp. 191, 193 196) F.IF.B (pp. 189 196) MP.2 (pp. 197 206) F.IF.B (pp. 197 206) MP.2 (pp. 208 211) F.IF.B (pp. 208 211) MP.2 (pp. 212 216) F.IF.B (pp. 212 216) WHST.11-12.2, WHST.11-12.4, RST.9-10.7 S.ID, (p. 229) (p. 229) MP.2 (pp. 232 233) F.IF.B (pp. 232 233) MP.2 (pp. 234 241) F.IF.B (pp. 234 241) MP.2 (pp. 247) F.IF.B (pp. 243, 245, 247) MP.2 (pp. 251 254, 256) F.IF.B (pp. 249 256) WHST.11-12.2, WHST.11-12.4 MP.2 MP.2, A.CED.1, F.IF.B, Lesson-by-Lesson Correlation T13

Lesson-by-Lesson Correlation (continued) Chapter 8 Rotational Motion and Equilibrium 8.1 Describing Angular Motion Core Idea PS2.A SEP 4 (p. 267), SEP 5 (pp. 269 272, 274 275), (p. 267) 8.2 Rolling Motion and the Moment of Inertia Core Idea PS2.A SEP 5 (pp. 277, 280) 8.3 Torque HS-PS2-2 Core Idea PS2.A SEP 5 (pp. 282, 284 287, 289) 8.4 Static Equilibrium Core Idea PS2.A, CCC 7 SEP 5 (pp. 291, 294 296) (p. 267) (p. 267) MP.2 (pp. 269 272, 274 275) F.IF.B (pp. 269-272, 274 275) MP.2 (pp. 277, 280) F.IF.B (pp. 277 208) MP.2 (pp. 282, 284 287, 289) F.IF.B (p. 281) MP.2 (pp. 291, 294 296) F.IF.B (pp. 291 296) Physics & You Commercial Pilot SEP 8 WHST.9-10.7, WHST.11 12.2, WHST.11-12.4, WHST.11-12.7 Physics Lab Investigating Torque and Equilibrium Core Idea PS2.A SEP 4,, SEP 7 Chapter 9 Gravity and Circular Motion 9.1 Newton s Law of Universal Gravity HS-PS2-4 Core Idea PS2.A, CCC 1, CCC 2 SEP.4 (p. 307), SEP 5 (pp. 309 312) 9.2 Applications of Gravity HS-PS2-4 Core Idea PS2.A, CCC 1, CCC 2 SEP 5 (pp. 314 315, 317 319) 9.3 Circular Motion Core Idea PS2.A, CCC 2 SEP 5 (pp. 322 323, 326) 9.4 Planetary Motion and Orbits HS-ESS1-4 Core Idea PS2.A, CCC 3 SEP 5 (pp. 330 332) Physics & You Tidal Energy Core Idea ETS1.B SEP 8 Physics Lab Centripetal Force Core Idea PS2.A SEP 4, SEP 7, MP.2 (p. 307) (pp. 307) F.IF.B (pp. 308 312) MP.2 (pp. 309 312) F.IF.B (pp. 313 319) MP.2 (pp. 314 315, 317 319) F.IF.B (pp. 321 324, 326) MP.2 (pp. 322 323, 326) F.IF.B (pp. 330 332) MP.2 (pp. 330 332) WHST.9-10.7, WHST.11-12.2, WHST.11-12.4, WHST.11-12.7, S.ID.A T14 Next Generation Science Standards

Chapter 10 Temperature and Heat 10.1 Temperature, Energy, and Heat Core Idea PS3.A, CCC 2, CCC 4 SEP 4 (p. 343), (p. 343) 10.2 Thermal Expansion and Energy Transfer Core Idea PS3.B, CCC 4 SEP 5 (pp. 351, 357) 10.3 Heat Capacity Core Idea PS3.B, CCC 4 SEP 5 (pp. 360, 362, 364 366) 10.4 Phase Changes and Latent Heat HS-PS3-2 Core Idea PS3.A, CCC 5 SEP 5 (pp. 373 374) Physics & You Optical Pyrometer Core Idea ETS1.A SEP 8 Physics Lab Investigating Specific Heat Capacity Core Idea PS3.B, CCC 5 SEP 5 Chapter 11 Thermodynamics 11.1 The First Law of Thermodynamics Core Idea PS3.B, CCC 4 SEP 5 (pp. 388, 391 392), (p. 385) 11.2 Thermal Processes Core Idea PS3.B, CCC 4 SEP 5 (pp. 394 395, 398 400) 11.3 The Second and Third Laws of Thermodynamics Core Idea PS3.B, CCC 5 SEP 5 (pp. 402 404, 406) RST.9-10.3 (p. 343) (p. 343) MP.2 (pp. 348 349) F.IF.B (pp. 351, 357) MP.2 (pp. 351, 357) F.IF.B (pp. 360, 362, 364 366) MP.2 (pp. 360, 362, 364 366) F.IF.B (pp. 373 374) MP.2 (pp. 373 374) N.Q (p. 374) WHST.9-10.7, WHST.9-10.8, WHST.9-10.9, F.IF.B RST.9-10.3 (p. 385) (p. 385) F.IF.B (pp. 387 388, 390 392) MP.2 (pp. 388, 391 392) F.IF.B (pp. 394 400) MP.2 (pp. 394 395, 398 400) F.IF.B (pp. 402 404, 406) MP.2 (pp. 402 404, 406) Physics & You Cryogenics SEP 8 WHST.9-10.7, WHST.9-10.8, WHST.9-10.9, WHST.11-12.1 Physics Lab The Mechanical Equivalent of Heat Core Idea PS3.B SEP 2, SEP 5 Chapter 12 Gases, Liquids, and Solids 12.1 Gases HS-PS3-2 Core Idea PS3.A, CCC 5, CCC 6 SEP 5 (pp. 417, 419, 421, 423), (p. 415) 12.2 Fluids at Rest Core Idea PS1.A SEP 5 (pp. 425-426, 428-429, 431, 434) 12.3 Fluids in Motion Core Idea PS1.A SEP 5 (pp. 436, 439) 12.4 Solids Core Idea PS1.A, CCC 6 SEP 5 (pp. 441 442) Physics & You Meteorologist SEP 8 F.IF.B RST.9-10.3 (pp. 415) (p. 415) F.IF.B (p. 416 417, 419, 421, 423) MP.2 (p. 417, 419, 421, 423) F.IF.B (pp. 425 431, 434) N.Q (pp. 425, 431) F.IF.B (pp. 436, 439) MP.2 (pp. 436, 439) F.IF.B (pp. 441 442) MP.2 (pp. 441 442) N.Q (p. 441) WHST.9-10.7, WHST.9-10.8 Physics Lab Investigating Hooke s Law Core Idea PS1.A, CCC 2 SEP 4 RST.9-10.3, RST.9-10.7, WHST.11-12.1 Lesson-by-Lesson Correlation T15

Lesson-by-Lesson Correlation (continued) Chapter 13 Oscillations and Waves 13.1 Oscillations and Periodic Motion Core Idea PS4.A, CCC 2 SEP 5 (pp. 455, 458 459, 461), (p. 453) 13.2 The Pendulum Core Idea PS4.A SEP 5 (pp. 463 464, 466 467, 469) 13.3 Waves and Wave Properties Core Idea PS4.A, CCC 6 SEP 5 (pp. 474 475) 13.4 Interacting Waves Core Idea PS4.A SEP 5 (pp. 480, 482) Physics & You Tuned Mass Damper Core Ideas PS4.A, ETS1.B SEP 5, SEP 8, CCC 2 Physics Lab Standing Waves on a Coiled Spring Core Idea PS4.A, CCC 1 SEP 5, Chapter 14 Sound 14.1 Sound Waves and Beats Core Ideas PS4.A, PS4.C; CCC 2 SEP 5 (pp. 496, 501), (p. 493) 14.2 Standing Sound Waves Core Idea PS4.A SEP 5 (pp. 503 506) 14.3 The Doppler Effect Core Ideas PS4.A, PS4.C; CCC 2 SEP 5 (pp. 509 512) 14.4 Human Perception of Sound Core Idea PS4.A SEP 5 (pp. 514, 516 519) Physics & You Sonar Mapping HS-PS4-5 Core Ideas PS4.A, PS4.C, ETS1.A SEP 8, CCC 2 Physics Lab Determining the Speed of Sound in Air HS-PS4-1 Core Idea PS4.A SEP 5, (p. 453) (p. 453) F.IF.B (pp. 455, 458 459, 461) MP.2 (pp. 455, 458 459, 461) N.Q (pp. 455) F.IF.B (pp. 463 464, 466 467, 469) MP.2 (pp. 463 464, 466 467, 469) F.IF.B (pp. 474 475) MP.2 (pp. 474 475) RST.9-10.7 (p. 477) F.IF.B (pp. 480, 482) MP.2 (pp. 480, 482) WHST.9-10.7, WHST.9-10.8 MP.2, F.IF.B, MP.2 (p. 493) F.IF.B (pp. 496, 501) MP.2 (pp. 498, 501) N.Q (p. 496) F.IF.B (p. 503 506) MP.2 (p. 503 506) F.IF.B (pp. 509 512) MP.2 (pp. 509 512) N.Q (p. 509) F.IF.B (pp. 513 517, 519) MP.2 (pp. 514, 516 517, 519) WHST.9-10.7, WHST.9-10.8, WHST.9-10.9, MP.2 T16 Next Generation Science Standards

Chapter 15 The Properties of Light 15.1 The Nature of Light HS-PS4-3 Core Idea PS4.B, CCC 4 SEP 5 (pp. 530, 532 534, 536), (p. 529) 15.2 Color and the Electromagnetic Spectrum HS-PS4-5 Core Idea PS4.B, CCC 2 SEP 5 (pp. 538, 544) 15.3 Polarization and Scattering of Light Core Idea PS4.B, CCC 2 SEP 5 (pp. 547 549, 553) Physics & You Lighting Technologies and Energy Usage Core Idea ETS1.B SEP 4 Physics Lab Polarization Core Idea PS4.B Chapter 16 Reflection and Mirrors 16.1 The Reflection of Light Core Idea PS4.B SEP 5 (pp. 567, 569) 16.2 Plane Mirrors Core Idea PS4.B, CCC 6 SEP 5 (pp. 571, 573 574) 16.3 Curved Mirrors Core Idea PS4.B, CCC 6 SEP 5 (pp. 582 586) Physics & You The Hubble Space Telescope (HST) HS-PS4-5 Core Ideas PS4.B, ETS1.A Physics Lab Focal Length of a Concave Mirror Core Idea PS4.B SEP 3, SEP 5 Chapter 17 Refraction and Lenses 17.1 Refraction HS-PS4-1 Core Ideas PS4.A, PS4.B; CCC 2 SEP 5 (pp. 598 600, 602 603, 605), (p. 597) 17.2 Applications of Refraction Core Idea PS4.B SEP 5 (pp. 607, 609 611) 17.3 Lenses Core Idea PS4.B SEP 5 (pp. 617 618) 17.4 Applications of Lenses HS-PS4-5 Core Idea PS4.B, CCC 2 SEP 5 (pp. 619, 625), (p. 625) Physics & You Ophthalmology Core Ideas PS4.B, ETS1.A SEP 8 Physics Lab Investigating Refraction Core Idea PS4.B SEP 5 RST.11-12. 3 (p. 529) (p. 529) F.IF.B (pp. 532 534, 536) MP.2 (pp. 530, 532 534, 536) N.Q (p. 533) F.IF.B (pp. 538, 544) MP.2 (pp. 538, 544) N.Q (p. 538) F.IF.B (pp. 547 549, 553) MP.2 (pp. 547 549, 553) RST.9-10.7, RST.9-10.8 (p. 565) F.IF.B (pp. 567, 569) MP.2 (pp. 567, 569) F.IF.B (pp. 571, 573 574) MP.2 (pp. 571, 573 574) F.IF.B (pp. 582 586) MP.2 (pp. 582 586) (p. 597) (p. 597) N.Q (p. 598) F.IF.B (pp. 598 600, 602 603, 605) F.IF.B (pp. 607, 609 611) F.IF.B (pp. 617 618) F.IF.B (pp. 619, 625) WHST.11-12.4, WHST.11-12.9 SL.9-10.2, SL.9-10.4 Lesson-by-Lesson Correlation T17

Lesson-by-Lesson Correlation (continued) Chapter 18 Interference and Diffraction 18.1 Interference HS-PS4-3 Core Idea PS4.B, CCC 1 (p. 637), SEP 5 (pp. 640, 644 646) 18.2 Interference in Thin Films HS-PS4-5 Core Idea PS4.B SEP 5 (pp. 650, 652 653) 18.3 Diffraction HS-PS4-3 Core Idea PS4.B SEP 5 (pp. 656 657, 659 661) 18.4 Diffraction Gratings Core Idea PS4.B SEP 5 (pp. 662 663) Physics & You X-ray Diffraction HS-PS4-5 Core Ideas PS4.B, ETS1.B SEP 8, CCC 2 Physics Lab An Application of Diffraction Core Idea PS4.B SEP 4, SEP 5, Chapter 19 Electric Charges and Forces 19.1 Electric Charge Core Idea PS3.A SEP.4 (p. 675), SEP 5 (p. 682), (p. 675) 19.2 Electric Force HS-PS2-4 Core Idea PS2.B, CCC 1, CCC 4 SEP 5 (pp. 686 689) 19.3 Combining Electric Forces HS-PS2-4 Core Idea PS2.B, CCC 4 SEP 5 (pp. 691, 693 694) Physics & You Electrocardiogram Technician Core Idea ETS1.C SEP 8 (p. 695) Physics Lab Investigating Coulomb s Law HS-PS2-4 Core Idea PS2.B, CCC 1 SEP 5 (p. 637) (p. 637) F.IF.B (pp. 640, 644 646) F.IF.B (pp. 650, 652 653) F.IF.B (pp. 656 657, 659 661) F.IF.B (pp. 663 662) WHST.11-12.1, WHST.11-12.4, WHST.11-12.9 SL.9-10.4 (p. 675) (p. 675) F.IF.B (p. 682) F.IF.B (pp. 686 689) F.IF.B (pp. 691, 693 694) WHST.11-12.1, WHST.11-12.4, WHST.11-12.9 SL.9-10.4 A.REI.10 T18 Next Generation Science Standards

Chapter 20 Electric Fields and Electric Energy 20.1 The Electric Field HS-PS3-5 Core Idea PS3.C, CCC 2 SEP 2 (p. 717), SEP 4 (p. 705), SEP 5 (pp. 707 712, 717), (p. 705) 20.2 Electric Potential Energy and Electric Potential HS-PS3-2, HS-PS3-5 Core Idea PS3.C, CCC 2 SEP 5 (pp. 720, 722 727) 20.3 Capacitance and Energy Storage HS-PS3-2 Core Idea PS3.C, CCC 5 SEP 5 (pp. 729 731, 733 734) Physics & You Faraday Cages Core Idea ETS1.B SEP 8 Physics Lab Mapping an Electric Field Core Idea PS3.A Chapter 21 Electric Current and Electric Circuits 21.1 Electric Current, Resistance, and Semiconductors Core Idea PS3.B, CCC 6 SEP.4 (p. 745), SEP 5 (pp. 747, 749, 751, 757), (p. 745) 21.2 Electric Circuits HS-PS3-3 Core Idea PS3.B, CCC 6 SEP 5 (pp. 758 759, 761 763, 765) 21.3 Power and Energy in Electric Circuits HS-PS-3 Core Idea PS3.B, CCC 5 SEP 5 (pp. 766 771) RST.11-12. 3 (p. 705) (p. 705) F.IF.B (pp. 707 712, 717) F.IF.B (pp. 720 727) F.IF.B (pp. 729 731, 733 734) WHST.11-12.1, WHST.11-12.4, WHST.11-12.9 SL.9-10.4 (p. 745) (p. 745) F.IF.B (pp. 747, 749, 751, 757) F.IF.B (pp. 758 759, 761 763, 765) F.IF.B (pp. 766 771) Physics & You Semiconductor Industry SEP 8 WHST.11-12.4, WHST.11-12.9 SL.9-10.4 Physics Lab Ohm s Law Core Idea PS3.C SEP 3, SEP 4, SEP 5, Chapter 22 Magnetism and Magnetic Fields 22.1 Magnets and Magnetic Fields HS-PS3-5 Core Idea PS3.C, CCC 2 (p. 783) 22.2 Magnetism and Electric Currents HS-PS3-5 Core Idea PS3.C, CCC 2, CCC 4 SEP 5 (pp. 791, 794 795) 22.3 The Magnetic Force HS-PS3-5 Core Idea PS3.C, CCC 2 SEP 5 (pp. 797 798, 801 802, 804, 806) Physics & You Particle Accelerators Core Idea ETS1.A SEP 8 Physics Lab Mapping Magnetic Fields Core Idea PS3.A SEP 4,, A.REI.10 (p. 783) (p. 783) F.IF.B (pp. 791, 794 795) F.IF.B (pp. 797 798, 801 802, 804, 806) WHST.11-12.4, WHST.11-12.9 SL.9-10.4 Lesson-by-Lesson Correlation T19

Lesson-by-Lesson Correlation (continued) Chapter 23 Electromagnetic Induction 23.1 Electricity from Magnetism HS-PS3-5 Core Ideas PS2.B, PS3.C; CCC 2 SEP 5 (pp. 820 822, 827), (p. 817) 23.2 Electric Generators and Motors HS-PS3-5 Core Ideas PS2.B, PS3.C; CCC 2 SEP 5 (pp. 829, 831) 23.3 AC Circuits and Transformers HS-PS2-6 Core Idea PS2.B SEP 5 (pp. 833 835, 839 840) Physics & You The Induction Motor Core Idea ETS1.A Physics Lab Electromagnetic Induction HS-PS2-5 Core Ideas PS2.B, PS3.A CCC 2, CCC 5, Chapter 24 Quantum Physics 24.1 Quantized Energy and Photons HS-PS4-3 Core Idea PS4.B, CCC 4 SEP 5 (pp. 854, 856 863), (p. 851) 24.2 Wave-Particle Duality HS-PS4-3 Core Idea PS4.B, CCC 4 SEP 5 (pp. 865, 867) 24.3 The Heisenberg Uncertainty Principle Core Idea PS1.A (p. 817) (p. 817) F.IF.B (pp. 820 822, 827) F.IF.B (pp. 829, 831) F.IF.B (pp. 833 835, 839 840) (p. 851) (p. 851) F.IF.B (pp. 854, 856 863) MP.2 (pp. 854, 856 863) F.IF.B (pp. 865, 867) MP.2 (pp. 865, 867) Physics & You Solar Installation Core Ideas PS4.B, ETS1.C SEP 8 Physics Lab Investigating Quanta SEP 2, SEP 4, Chapter 25 Atomic Physics 25.1 Early Models of the Atom Core Idea PS1.A, CCC 1, CCC 3 (p. 883) 25.2 Bohr s Model of the Hydrogen Atom Core Idea PS1.A, CCC 2 SEP 5 (pp. 890 893, 894 895) 25.3 The Quantum Physics of Atoms Core Idea PS1.A, CCC 3 WHST.11-12.1, WHST.11-12.4, WHST.11-12.9 SL.9-10.4,, A.REI.10 (p. 883) (p. 883) F.IF.B (pp. 890 893, 894 895) MP.2 (pp. 890-893, 894 895) Physics & You Hydrogen as Fuel Core Idea ETS1.C Physics Lab Spectra of Common Light Sources Core Idea PS1.A T20 Next Generation Science Standards

Chapter 26 Nuclear Physics 26.1 The Nucleus HS-PS1-8 Core Idea PS1.C, CCC 5 SEP 5 (pp. 914 915, 917), (p. 911) 26.2 Radioactivity HS-PS1-8 Core Idea PS1.C, CCC 5 SEP 2 (pp. 921, 923), SEP 5 (pp. 921 923, 925) 26.3 Applications of Nuclear Physics Core Idea PS1.C, CCC 5 SEP 5 (pp. 927, 933 935) 26.4 Fundamental Forces and Elementary Particles Core Idea PS1.C (p. 911) (p. 911) F.IF.B (pp. 914 915, 917) MP.2 (pp. 914 915, 917) F.IF.B (pp. 921 923, 925) MP.2 (pp. 921 923, 925) F.IF.B (pp. 927, 933 935) MP.2 (pp. 927, 933 935) Physics & You Archaeologist SEP 8 WHST.11-12.1, WHST.11-12.4, WHST.11-12.9 SL.9-10.4 Physics Lab Modeling Radioactive Decay Core Idea PS1.C SEP 2, SEP 4, A.REI.10 Chapter 27 Relativity 27.1 The Postulates of Relativity (p. 949) (p. 949) (p. 949) 27.2 The Relativity of Time and Length CCC 2 SEP 5 (pp. 955, 957 958) 27.3 E mc 2 Core Idea PS3.B, CCC 5 SEP 5 (pp. 959, 961) 27.4 General Relativity Core Idea ESS1.A, CCC 2 F.IF.B (pp. 955, 957 958) MP.2 (pp. 955, 957 958) F.IF.B (pp. 959, 961) MP.2 (pp. 959, 961) Physics & You Miniature Nuclear Reactors Core Idea ETS1.C SEP 8 WHST.11-12.1, WHST.11-12.4, WHST.11-12.9 SL.9-10.4 Physics Lab Time Dilation Lesson-by-Lesson Correlation T21

Pacing Guide This guide suggests the core time to spend on each chapter in the book. Time allotments include lab activities in the Student Edition, but exclude assessment and activities or projects you may choose to add. Chapter Content Chapter 1 Introduction to Physics Periods per Lesson 1.1 Physics and the Scientific Method 0.5 1.2 Physics and Society 0.5 1.3 Units and Dimensions 1 1.4 Basic Math for Physics 1 1.5 Problem Solving in Physics 1 Physics Lab: Measuring Devices and Units 1 Chapter 2 Introduction to Motion 2.1 Describing Motion 0.5 2.2 Speed and Velocity 1 2.3 Position-Time Graphs 1.5 2.4 Equation of Motion 1 Physics Lab: Position versus Time for a Constant-Velocity Car 1 Chapter 3 Acceleration and Accelerated Motion 3.1 Acceleration 1 2 3.2 Motion with Constant Acceleration 2 3.3 Position-Time Graphs for Constant Acceleration 1 3.4 Free Fall 1 Physics Lab: Investigating Acceleration 1 Chapter 4 Motion in Two Dimensions 4.1 Vectors in Physics 1 4.2 Adding and Subtracting Vectors 1 4.3 Relative Motion 1 4.4 Projectile Motion 2 Physics Lab: Projectile Motion 1 Chapter 5 Newton s Laws of Motion 5.1 Newton s Laws of Motion 2 5.2 Applying Newton s Laws 3 5.3 Friction 2 Physics Lab: Static and Kinetic Friction 1 Chapter 6 Work and Energy 6.1 Work 2 6.2 Work and Energy 2 6.3 Conservation of Energy 1 6.4 Power 1 Physics Lab: Investigating Work on Inclined Planes 1 Total Time per Chapter 5 periods (2.5 blocks) 5 periods (2.5 blocks) 6 7 periods (3 3.5 blocks) 8 periods (4 blocks) 7 periods (3.5 blocks) T22 Pacing Guide

Chapter Content Chapter 7 Linear Momentum and Collisions Periods per Lesson 7.1 Momentum 1 2 7.2 Impulse 1 7.3 Conservation of Momentum 2 7.4 Collisions 2 Physics Lab: Momentum Conservation during a Collision 1 Chapter 8 Rotational Motion and Equilibrium 8.1 Describing Angular Motion 1 8.2 Rolling Motion and the Moment of Inertia 1 8.3 Torque 1 8.4 Static Equilibrium 1 Physics Lab: Investigating Torque and Equilibrium 1 Chapter 9 Gravity and Circular Motion 9.1 Newton s Law of Universal Gravity 1.5 9.2 Applications of Gravity 1 9.3 Circular Motion 1 9.4 Planetary Motion and Orbits 1.5 Physics Lab: Centripetal Force 1 Chapter 10 Temperature and Heat 10.1 Temperature, Energy, and Heat 2 10.2 Thermal Expansion and Energy Transfer 2 10.3 Heat Capacity 1.5 10.4 Phase Changes and Latent Heat 1.5 Physics Lab: Investigating Specific Heat Capacity 1 Chapter 11 Thermodynamics 11.1 The First Law of Thermodynamics 1.5 11.2 Thermal Processes 2 11.3 The Second and Third Laws of Thermodynamics 1.5 Physics Lab: The Mechanical Equivalent of Heat 1 Chapter 12 Gases, Liquids, and Solids 12.1 Gases 1 12.2 Fluids at Rest 2 12.3 Fluids in Motion 1 12.4 Solids 1 Physics Lab: Investigating Hooke s Law 1 Chapter 13 Oscillations and Waves 13.1 Oscillations and Periodic Motion 2 13.2 The Pendulum 1 13.3 Waves and Wave Properties 1 13.4 Interacting Waves 1 Physics Lab: Standing Waves on a Coiled Spring 1 Total Time per Chapter 7 8 (3.5 4 blocks) 5 periods (2.5 blocks) 8 periods (4 blocks) Pacing Guide T23

Pacing Guide (continued) Chapter Content Chapter 14 Sound Periods per Lesson 14.1 Sound Waves and Beats 1 14.2 Standing Sound Waves 1 14.3 The Doppler Effect 1 2 14.4 Human Perception of Sound 1 Physics Lab: Determining the Speed of Sound in Air 1 Chapter 15 The Properties of Light 15.1 The Nature of Light 1 15.2 Color and the Electromagnetic Spectrum 2 15.3 Polarization and Scattering of Light 1 Physics Lab: Polarization 1 Chapter 16 Reflection and Mirrors 16.1 The Reflection of Light 1 16.2 Plane Mirrors 1 16.3 Curved Mirrors 1 2 Physics Lab: Focal Length of a Concave Mirror 1 Chapter 17 Refraction and Lenses 17.1 Refraction 2 17.2 Applications of Refraction 1 17.3 Lenses 1 17.4 Applications of Lenses 1 Physics Lab: Investigating Refraction 1 Chapter 18 Interference and Diffraction 18.1 Interference 2 18.2 Interference in Thin Films 1 18.3 Diffraction 1 18.4 Diffraction Gratings 1 Physics Lab: An Application of Diffraction 1 Chapter 19 Electric Charges and Forces 19.1 Electric Charge 1 19.2 Electric Force 2 19.3 Combining Electric Forces 1 Physics Lab: Investigating Coulomb s Law 1 Chapter 20 Electric Fields and Electric Energy 20.1 The Electric Field 2 20.2 Electric Potential Energy and Electric Potential 2 20.3 Capacitance and Energy Storage 1 Physics Lab: Mapping an Electric Field 1 Total Time per Chapter 5 (2.5 3 blocks) 5 periods (2.5 blocks) 4 5 periods (2 2.5 blocks) 5 periods (2.5 blocks) T24 Pacing Guide

Chapter Content Chapter 21 Electric Current and Electric Circuits Periods per Lesson 21.1 Electric Current, Resistance, and Semiconductors 1 21.2 Electric Circuits 2 21.3 Power and Energy in Electric Circuits 1 Physics Lab: Ohm s Law 1 Chapter 22 Magnetism and Magnetic Fields 22.1 Magnets and Magnetic Fields 1.5 22.2 Magnetism and Electric Currents 2.5 22.3 The Magnetic Force 1 Physics Lab: Mapping Magnetic Fields 1 Chapter 23 Electromagnetic Induction 23.1 Electricity from Magnetism 2 23.2 Electric Generators and Motors 1 23.3 AC Circuits and Transformers 1 2 Physics Lab: Electromagnetic Induction 1 Chapter 24 Quantum Physics 24.1 Quantized Energy and Photons 2 24.2 Wave-Particle Duality 2 24.3 The Heisenberg Uncertainty Principle 1 Physics Lab: Investigating Quanta 1 Chapter 25 Atomic Physics 25.1 Early Models of the Atom 1 25.2 Bohr s Model of the Hydrogen Atom 1 2 25.3 The Quantum Physics of Atoms 1 Physics Lab: Spectra of Common Light Sources 1 Chapter 26 Nuclear Physics 26.1 The Nucleus 1 26.2 Radioactivity 2 26.3 Applications of Nuclear Physics 1 26.4 Fundamental Forces and Elementary Particles 1 Physics Lab: Modeling Radioactive Decay 1 Chapter 27 Relativity 27.1 The Postulates of Relativity 1 27.2 The Relativity of Time and Length 1 27.3 E = mc 2 1 27.4 General Relativity 1 Physics Lab: Time Dilation 1 Total Time per Chapter 5 periods (2.5 blocks) 5 (2.5 3 blocks) 4 5 periods (2 2.5 blocks) 5 periods (2.5 blocks) Pacing Guide T25