Please Do Not Write on This Sheet Physics Formula Sheet Chapter 1: Introduction: The Nature of Science and Physics π₯= −π ± √π 2 π π¦ = π΄π¦ + π΅π¦ π = √π π₯2 + π π¦2 − 4ππ 2π π ππππ’π ππ πΈπππ‘β = 6.38 × 106 π πππ π ππ πΈπππ‘β = 5.98 × 1024 ππ π = 3.00 × 108 π/π ππ2 πΊ = 6.673 × 10−11 ππ2 ππ΄ = 6.02 × 1023 π = 1.38 × 10−23 π½/πΎ π½ π = 8.31 ⁄πππ ⋅ πΎ π = 5.67 × 10−8 π/(π2 ⋅ πΎ) π = 8.99 × 109 π ⋅ π2 /πΆ 2 ππ = −1.60 × 10−19 πΆ π0 = 8.85 × 10−12 πΆ 2 /(π ⋅ π2 ) π0 = 4π × 10−7 π ⋅ π/π΄ β = 6.63 × 10−34 π½ ⋅ π ππ = 9.11 × 10−31 ππ ππ = 1.6726 × 10−27 ππ ππ = 1.6749 × 10−27 ππ πππ’ = 1.6605 × 10−27 ππ ππ π·πππ ππ‘π¦ ππ π€ππ‘ππ = 1000 3 π Chapter 2: Kinematics π₯π₯ = π₯π − π₯0 π₯π‘ = π‘π − π‘0 π₯π₯ π₯π − π₯0 π£= = π₯π‘ π‘π − π‘0 π₯π£ π£π − π£0 π= = π₯π‘ π‘π − π‘0 π₯ = π₯0 + π£π‘ π£0 + π£ π£= 2 π£ = π£0 + ππ‘ 1 π₯ = π₯0 + π£0 π‘ + ππ‘ 2 2 π£ 2 = π£02 + 2π(π₯ − π₯0 ) π π = 9.80 2 π Chapter 3: Two-Dimensional Kinematics π΄π₯ = π΄ πππ π π΄π¦ = π΄ π ππ π π π₯ = π΄π₯ + π΅π₯ π = π‘ππ−1 π π¦ π π₯ 2 π£0π¦ 2π 2 π£0 π ππ 2π0 π = π π£π₯ = π£ πππ π π£π¦ = π£ π ππ π β= π£ = √π£π₯2 + π£π¦2 π = π‘ππ−1 π£π¦ π£π₯ Chapter 4: Dynamics: Forces and Newton’s Laws of Motion πΉπππ‘ = ππ π€ = ππ Chapter 5: Further Applications of Newton’s Laws: Friction, Drag, and Elasticity ππ ≤ ππ π ππ = ππ π 1 πΉπ· = πΆππ΄π£ 2 2 πΉπ = 6ππππ£ πΉ = ππ₯π₯ 1πΉ π₯πΏ = πΏ ππ΄ 0 πΉ π π‘πππ π = π΄ π₯πΏ π π‘ππππ = πΏ0 π π‘πππ π = π × π π‘ππππ 1πΉ π₯π₯ = πΏ ππ΄ 0 1πΉ π₯π = π π΅π΄ 0 Chapter 6: Uniform Circular Motion and Gravitation π₯π π 2π πππ = 360° = 1 πππ£πππ’π‘πππ π₯π π= π₯π‘ π₯π = π£ = ππ π£2 ππΆ = π ππΆ = ππ2 πΉπΆ = πππΆ ππ£ 2 πΉπΆ = π π£2 π‘ππ π = ππ πΉπΆ = πππ2 ππ πΉ=πΊ 2 π πΊπ π= 2 π π12 π13 = π22 π23 4π 2 3 π2 = π πΊπ π3 πΊ = π π 2 4π 2 Chapter 7: Work, Energy, and Energy Resources π = ππ πππ π 1 πΎπΈ = ππ£ 2 2 1 1 ππππ‘ = ππ£π2 − ππ£02 2 2 ππΈπ = ππβ 1 ππΈπ = ππ₯ 2 2 πΎπΈ0 + ππΈ0 = πΎπΈπ + ππΈπ πΎπΈ0 + ππΈ0 + πππ = πΎπΈπ + ππΈπ πππ’π‘ πΈππ = πΈππ π π= π‘ Chapter 8: Linear Momentum and Collisions π = ππ£ π₯π = πΉπππ‘ π₯π‘ π0 = ππ π1 π£01 + π2 π£02 = π1 π£π1 + π2 π£π2 Please Do Not Write on This Sheet Thin rod about axis through center 1 1 2 2 π1 π£01 + π2 π£02 2 2 1 2 = π1 π£π1 2 1 2 + π2 π£π2 2 π1 π£1 = π1 π£1′ πππ π1 + π2 π£2′ πππ π2 0 = π1 π£1′ π ππ π1 + π2 π£2′ π ππ π2 1 1 1 ππ£12 = ππ£1′2 + ππ£2′2 2 2 2 + ππ£1′ π£2′ πππ (π1 − π2 ) π£π π₯π π= −π π π₯π‘ π£1 π1 + π£2 π2 π£ππ = π1 + π2 Chapter 9: Statics and Torque π₯π π₯π‘ π£ = ππ π₯π πΌ= π₯π‘ π₯π£ ππ‘ = π₯π‘ ππ‘ = ππΌ π = ππ‘ π = π0 + πΌπ‘ 1 π = π0 π‘ + πΌπ‘ 2 2 π2 = π02 + 2πΌπ π0 + π π= 2 πππ‘ π = πΌπΌ Hoop about cylinder axis: πΌ = ππ 2 π= Hoop about any diameter: πΌ = π 2 ππ 2 2 (π 12 + π 22 ) Solid cylinder (or disk) about cylinder axis: πΌ = ππ 2 2 Solid cylinder (or disk) about central diameter: πΌ = ππ 2 4 + πβ2 12 1 = π2 + ππ£22 2 + ππβ2 12 ⊥ to length: πΌ = Solid sphere: πΌ = πβ2 3 2ππ 2 5 Thin spherical shell: πΌ = 2ππ 2 3 Slab about ⊥ axis through center: πΌ= π(π2 +π 2 ) 12 πππ‘ π = (πππ‘ π)π 1 πΎπΈπππ‘ = πΌπ2 2 πΏ = πΌπ π₯πΏ πππ‘ π = π₯π‘ π π πΉ π= π΄ πππ‘π = 1.01 × 105 ππ π = ππβ π2 = π1 + ππβ πΉ1 πΉ2 = π΄1 π΄2 πΉπ΅ = π€ππ ππππ πΉππππ‘πππ π π’πππππππ = πππ π π πππππππ ππππ£ππ‘π¦ = ππ€ πΉ πΎ= πΏ 4πΎ π= π 2πΎ πππ π β= πππ π= Chapter 10: Rotational Motion and Angular Momentum 1 π1 + ππ£12 + ππβ1 2 Thin rod about axis through one end Chapter 11: Fluid Statics π = ππΉ π ππ π π⊥ = π π ππ π πΉπ ππ ππ΄ = = πΉπ ππ ππ πΉπ = ππ πΉπ Ring: πΌ = ⊥ to length: πΌ = πβ2 Chapter 12: Fluid Dynamics and Its Biological Medical Applications π π= π‘ π = π΄π£ π΄1 π£1 = π΄2 π£2 π1 π΄1 π£1 = π2 π΄2 π£2 1 (Δπ + Δ ππ£ 2 + Δππβ) π = πππ€ππ 2 π£1 = √2πβ πΉπΏ π= π£π΄ π2 − π1 π= π 8ππ π = 4 ππ (π2 − π1 )ππ 4 π= 8ππ 2ππ£π ππ = π ππ£πΏ ππ ′ = π π₯πππ = √2π·π‘ Chapter 13: Temperature, Kinetic Theory, and the Gas Laws 9 π(°πΆ) + 32 5 π(πΎ) = π(°πΆ) + 273.15 π₯πΏ = πΌπΏπ₯π π₯π΄ = 2πΌπ΄π₯π π₯π = π½ππ₯π π½ ≈ 3πΌ ππ = πππ π = 1.38 × 10−23 π½/πΎ ππ΄ = 6.02 × 1023 πππ −1 ππ = ππ π π½ π = 8.31 πππ ⋅ πΎ 1 2 ππ = πππ£ 3 1 3 2 πΎπΈ = ππ£ = ππ 2 2 π(°πΉ) = π£πππ = √ 3ππ π % πππππ‘ππ£π βπ’πππππ‘π¦ π£ππππ ππππ ππ‘π¦ = π ππ‘π’πππ‘πππ π£ππππ πππππ ππ‘π¦ × 100% Chapter 14: Heat and Heat Transfer Methods 1.000 ππππ = 4186 π½ π = πππ₯π π = ππΏπ π = ππΏπ£ π ππ΄(π2 − π1 ) = π‘ π π = πππ΄π 4 π‘ π½ π = 5.67 × 10−8 π ⋅ π2 ⋅ πΎ 4 ππππ‘ = πππ΄(π24 − π14 ) π‘ Chapter 15: Thermodynamics 3 π = πππ 2 π₯π = π − π π = ππ₯π (ππ ππππππ ππππππ π ) Δπ = π − πΔπ π = 0 (ππ ππβππππ ππππππ π ) Δπ = π π = π (ππ ππ‘βπππππ ππππππ π ) Δπ = 0 π = 0 (πππππππ‘ππ ππππππ π ) Δπ = −π π πΈππ = πβ ππ (ππ¦ππππππ ππππππ π ) πΈππ = 1 − πβ ππ πΈπππΆ = 1 − πβ πβ πΆππβπ = π ππ πΆπππππ = πΆππβπ − 1 = π ππ ⁄π‘1 πΈπΈπ = πβ ⁄π‘2 π π₯π = π πβ ππ π₯ππ‘ππ‘ = + =0 πβ ππ ππ’πππ£πππ = π₯π ⋅ π0 π = π ππ π π = 1.38 × 10−23 π½/πΎ Chapter 16: Oscillatory Motion and Waves 1 π= π π π£ = = ππ π πΉ = −ππ₯ Please Do Not Write on This Sheet 1 ππΈππ = ππ₯ 2 2 π π = 2π√ π ππΈ π π₯ππΈ = ππ₯π π = πππ΄π΅ ππ΄π΅ πΈ= π π₯π πΈ=− π₯π ππ π= π π πΆ= π π΄ πΆ = π0 π π= 1 π √ 2π π π= 2ππ‘ π₯(π‘) = π πππ ( ) π 2ππ‘ π£(π‘) = −π£πππ₯ π ππ ( ) π π£πππ₯ = 2ππ π = π√ π π π(π‘) = − ππ 2ππ‘ πππ ( ) π π π£π π‘ππππ π0 = 8.85 × 10−12 πΉ =√ π/πΏ π π π£π€ = (331 ) √ π 273 πΎ π πΌ= π΄ π΄π πβπππ = 4ππ 2 (π₯π)2 πΌ= 2ππ£π€ Chapter 17: Physics of Hearing πΌ π½ = (10 ππ΅) πππ ( ) πΌ0 π£π€ ± π£π ππ = ππ ( ) π£π€ β π£π ππ΅ = |π1 − π2 | π£π€ ππ = π ( ) 2πΏ π£π€ ππ = π ( ) 4πΏ π = ππ£ (π2 − π1 )2 π= (π1 + π2 )2 Chapter 18: Electric Charge and Electric Field |ππ | = 1.60 × 10−19 πΆ |π1 π2 | πΉ=π π2 πΈ = πΉ/π |π| πΈ=π 2 π Chapter 19: Electric Potential and Electric Energy πΉ π π΄ π ππ πΆπ 2 π2 = = = 2 2 2πΆ πΆ = π π0 πΈπππ Chapter 20: Electric Current, Resistance, and Ohm’s Law π₯π π₯π‘ πΌ = πππ΄π£π π = πΌπ ππΏ π = π΄ π = π0 (1 + πΌπ₯π) π = π 0 (1 + πΌπ₯π) π2 π = πΌπ = = πΌ2 π π 1 πππ£π = πΌ0 π0 2 πΌ0 πΌπππ = √2 π0 ππππ = √2 πΌ= Chapter 21: Circuits, Bioelectricity, and DC Instruments π π = π 1 + π 2 + π 3 + β― 1 1 1 1 = + + +β― π π π 1 π 2 π 3 π = πππ − πΌπ π‘ π = πππ (1 − π −π πΆ ) π = π πΆ π‘ π = π0 π −ππΆ Chapter 22: Magnetism πΉ = ππ£π΅ π ππ π ππ£ π= ππ΅ π = π΅ππ£ πΉ = πΌπΏπ΅ π ππ π π = ππΌπ΄π΅ π ππ π π0 πΌ π΅= 2ππ π0 πΌ π΅= 2π π΅ = π0 ππΌ πΉ π0 πΌ1 πΌ2 = π 2ππ Chapter 23: Electromagnetic Induction, AC Circuits, and Electrical Technologies π· = π΅π΄ πππ π π₯π· πππ = −π π₯π‘ πππ = π£π΅πΏ πππ = ππ΄π΅π π ππ ππ‘ ππ ππ πΌπ = = ππ ππ πΌπ π₯πΌ2 πππ1 = −π π₯π‘ π₯πΌ πππ = −πΏ π₯π‘ π₯π· πΏ=π π₯πΌ μ0 π 2 π΄ πΏ= β 1 2 πΈπππ = πΏπΌ 2 πΌ = πΌ0 (1 − π= π‘ π −π ) πΏ π Please Do Not Write on This Sheet π πππ π = π πππ£π = πΌπππ ππππ πππ π Chapter 24: Electromagnetic Waves π= 1 √π 0 π0 πΈ =π π΅ π = ππ ππ0 πΈ02 πΌππ£π = 2 ππ΅02 πΌππ£π = 2π0 πΈ0 π΅0 πΌπππ = 2π0 Chapter 25: Geometric Optics ππ = ππ π π= π£ π1 π ππ π1 = π2 π ππ π2 π2 ππ = π ππ−1 π1 1 π= π 1 1 1 = + π ππ ππ βπ ππ π= =− βπ ππ π π= 2 π‘ Chapter 28: Special Relativity π₯π‘ = πΎ= Chapter 27: Wave Optics ππ = π π sin π = π π π 2 √1 − π£2 π 1 2 √1 − π£2 π π£2 π2 π£πΏπ + π£ππΊ π£πΏπΊ = π£ π£ 1 + πΏπ 2 ππΊ π π’ 1+ π ππππ = ππ √ π’ 1− π π’ π π’ 1+ π ππ£ ππππ = ππ √ π= 1 1 + ππ ππ π = ππ ππ ππ΄ = π π ππ πΌ π 1 π/# = ≈ π· 2ππ΄ ππ = ππ ππ π= ππ π₯π‘0 πΏ = πΏ0 √1 − Chapter 26: Vision and Optical Instruments π= πΌ = πΌ0 π −π π πΌ= ππΏ ππΏ = 2πππΏ π πΌ= ππΆ 1 ππΆ = 2πππΆ π0 ππππ πΌ0 = ππ πΌπππ = π π π = √π 2 + (ππΏ − ππΆ )2 1 π0 = 2π√πΏπΆ 1 π π ππ π = (π + ) 2 π π π ππ π = π π π π = 1.22 π· ππ 2π‘ = 2 2π‘ = ππ I = ½ I0 πΌ = πΌ0 πππ 2 π π2 π‘ππ ππ = π1 πΈ= 1− 2 √1 − π£2 π 2 ππ 2 √1 − π£2 π πΈ0 = ππ 2 ππ 2 πΎπΈπππ = − ππ 2 2 √1 − π£2 π 2 2 πΈ = (ππ) + (ππ 2 )2