,Physics, 5th and 7th
Class discussion
Week of March 16
Monday- PD Day
Tuesday -
I am planning on using Google Classroom, this is the class code mkoy27o
Please join ASAP. Assignments, notes, etc will be posted there from now one. Email with questions .
Wednesday-WS 13C Convex Mirrors
Thursday- Lab: Physics classroom: Optics Bench Curved Mirror Image Characteristics If you need extra worksheet it is exercise 1 https://www.physicsclassroom.com/Physics-Interactives/Reflection-and-Mirrors/Optics-Bench/Optics-Bench-Interactive
Friday-
Week of March 9
Monday- WS Ray Diagrams for Concave, Notes 13-3 Convex p. 464 #1-6, p. 466SR, WS Ray Diagrams Convex
Tuesday - Lab: Light Brightness and Distance
Wednesday- WS 13 B Concave
Thursday-Musical
Friday- Check WS 13 B
Week of March 2
Monday- Notes 13-2, SR p. 452
Tuesday - Notes 13-2, WS-Specular/Diffuse, Waves
Wednesday- Notes 13-3, p. 460 #1-4
Thursday- catch up day
Friday- No School
Week of February 24
Monday- Chapter 12 Review p. 435 #1,3-9,11,13,16,17,19,23,25,26,29,31,34-38, 43a
Tuesday- ACT
Wednesday- Chapter 12 Test
Thursday- No School
Friday- Notes 13-1, 13-2, p.447 #1-6, p. 448 #1-4
Week of February 17
Monday- No School
Tuesday - Lab: Speed of Sound
Wednesday-Notes 12-3, p. 425 #1-4, 429 SR, WS Resonance
Thursday- finish 12-3, WS Open and Closed Pipes
Friday- Chapter 12 Review p. 435 #1,3-9,11,13,16,17,19,23,25,26,29,31,34-38, 43a
Week of February 10
Monday- chapter 11 review due
Tuesday - Chapter 11 Test
Wednesday- Notes 12-1, Notes 12-2, p.413, 418 WS Doppler Effect and Intensity
Thursday- Snow Day
Friday- finish 12-1, 12-2
Week of February 3
Monday- Lab: Periodic Motion and Hooke's Law
Tuesday - Notes 11-4, finish Wave Packet
Wednesday- check wave packet, finish lab
Thursday- Ch 11 review p. 397-399 #1,3-5,8,10,12-19,21-27,29-33,34,35,39-43,45,46,49
Friday-
Week of January 27
Monday- Notes 11-2, p. 377 31-4, p. 379 SR
Tuesday - Lab: Pendulum
Wednesday- Notes 11-3, p. 385, 386
Thursday- Guest Speaker
Friday- finish 11-3, p. 385, 386, packet #5
Week of January 20
Monday- MLK Day No School
Tuesday - Lab
Wednesday- Chapter 7 Review due
Thursday-Chapter 7 Test
Friday- Notes 11-1, p. 369 #1-4, p. 373 SR
Week of January 13
Monday- 7-3 notes, p. 243, 245, WS #19-21
Tuesday - finish packet
Wednesday- 7-4 Notes, p. 250, WS Mechanical Advantage
Thursday- Lab
Friday- Lab, Ch 7 Review p. 264 #1-4,6,8,9,12-14,18,22,23,26,30,31,33-37,40,42,47
Week of January 6
Monday- Staff Day
Tuesday -Notes 7-1 Circular motion, p. 228, 230, 231
Wednesday- Notes 7-2 Universal Gravitation p. 234, 239
Thursday- finish 7-2
Friday- Lab: Universal Gravitation
Week of December 16
Monday- Exam Review
Tuesday -Exam Review
Wednesday- Exam Review
Thursday- 5th period exam (even periods)
Friday-5th and 7th period exam (odd periods)
Week of December 9
Monday- Lab: Momentum and Collisions
Tuesday - finish lab
Wednesday- -Ch 6 review,P. 218
#1,4-6,8,11,12,14-16,22,24,26,27,29,31,34
Thursday- ch 6 review due
Friday- Chapter 6 Test
Week of December 2
Monday- Check chapter 5 review
Tuesday - ch 5 Test
Wednesday- Notes 6-1 p.190,193,195,197
Thursday- Notes 6-2 p. 203, 205
Friday-Notes 6-3 p. 210, 213,214
Week of November 25
Monday- Notes 5-4:Power WS Power
Tuesday-ch 5 review do only underlined, read others P. 183-186
#2,3,6,8-10,12-15,17,19,24-26,28-30,33,35,38,39,42
Wednesday- No School
Thursday- Thanksgiving
Friday- No School
Week of November 18
Monday- Energy packet due Friday
Tuesday - Lab: Conservation of ME
Wednesday- Lab
Thursday- Energy packet
Friday- Check energy packet, p 19-20
Week of November 11
Monday- finish 5-2
Tuesday - Snow Day
Wednesday- WS 5C
Thursday- Lab:Uphill
Friday- Quiz 5.1-5.2, Notes 5-3 p. 173, 174
Thursday- Notes 5-4:Power p. 177 all
Friday-ch 5 review do only underlined, read others P. 183-186
n#2,3,6,8-10,12-15,17,19,24-26,28-30,33,35,38,39,42
Week of November 11
Monday- finish 5-2
Tuesday - Snow Day
Wednesday- WS 5C
Thursday- Lab:Uphill
Friday- Quiz 5.1-5.2, Notes 5-3 p. 173, 174
Week of November 4
Monday- Quiz 4-4, Ch 4 review P. 146
l#1,2,4,6-10,12,13,18-21,23,25,28,29,35,37,38
Tuesday - Ch 4 review due
Wednesday-Ch 4 Test
Thursday- Notes 5-1, 5-2, p. 158, 159, p. 162, 164
Friday- finish 5-2, WS Energy
Week of October 28
Monday- Quiz 4.1- 4.3, Notes 4-4, p. 139, p. 140
Tuesday - finsih 4-4, WS Acceleration on Level Surface
Wednesday- Lab:Newton's 2nd Law
Thursday- WS Inclined Plane and Forces
Friday- review for quiz
Week of October 21
Monday- Notes 4-1, WS FBD
Tuesday -Notes 4-2, p. 128, 129, WS Equilibrium situations
Wednesday- Notes 4-3, p. 132, p. 134 WS Newton's 2nd Law
Thursday- Lab Newton's 3rd Law
Friday- Lab, review for quiz
Week of October 14
Monday- Notes 3-4, WS Relative velocity
Tuesday - Chapter 3 p. 111-115 #4,5,15,16,20,21,24,26,27-29,31,41,51,56
Wednesday-Chapter 3 review due
Thursday- Chapter 3 Test
Friday- No School
Week of October 7
Monday- Notes 3-3 Projectiles p.101 SR p. 101 #1-4
Tuesday- WS 3E
Wednesday-Lab: Projectile Motion
Thursday-Lab, PRACTICE quiz
Friday-QUIZ
Week of Sept 30
Monday-p. 89, 92 whiteboards
Tuesday- WS 3C
Wednesday-Practice quiz
Thursday-Quiz 3.2
Friday-Notes 3-3, p 94, WS 3D
Week of Sept. 23
Monday- Chapter 2 review due
Tuesday - Chapter 2 Test
Wednesday- Notes 3-1
Thursday- Notes 3-2 p. 89 p. 92, WS Vectors
Friday- 3-2, WS Vector Addition
Week of Sept. 16
Monday- WS 2.1-2.2 review
Tuesday - WS 2.1-2.2 review
Wednesday- Quiz: 2-1 2-2
Thursday- Notes 2-3, p. 62,63
Friday- Lab: Picket Fence,Chapter 2 review p. 73-75 #1,4-8,10,12-14,16,18,20, 21,23,24,26,30,31
Week of Sept. 9
Monday- V-T graphs, ws #2,3 V-T graphs
Tuesday - Lab: Graph Motion
Wednesday- Lab: Graph Motion
Thursday- Notes 2-2, p. 51,53,56,57, Review graphs,
Friday- Quiz: PT VT graphs, finish 2-2,
Week of Sept. 2
Monday- No School
Tuesday - Ch 1 Review p. 30-31 #1,2,5,8,9,11,15-20 due
Wednesday- Chapter 1 Test,Notes 2-1, p. 42 #1-6, p. 45 #1-3,4a,5
Thursday- Position -Time and Velocity -time graphs,
Friday- Notes 2-2, p.47#1-5, WS #1 P-T graphsS#2 VT graphs
Week of August 26
Monday- Pre SLO
Tuesday - Notes 1-1 , WS Metric System
Wednesday- Notes 1-2, WS Significant Figures
Thursday- Notes 1-3, More practice with SF and Metric,WS Dimensional Analysis #1-12
Friday- Quiz Metric, finish WS Dimensional Analysis
Week of August 19
Monday-
Tuesday -
Wednesday-
Thursday- Class procedures/expectations
Friday- Paper Towers
Week of May 27
Monday- No School
Tuesday- study hall
Wednesday- odd Exams
Thursday-even Exams
Friday- No School
Week of May 20
Monday- Exam Review Answers
Tuesday- Exam
Wednesday- Exam
Thursday-Exam
Friday- No Seniors, study hall
Week of May 13
Monday- Ch 16 Review WS
Tuesday- Review
Wednesday-
Thursday-Test chapter 16
Friday- Exam Review
Week of May 6
Monday- 16-1 Packet
Tuesday- Notes 16-2 p. 558, WS 16A
Wednesday- finish 16-2, p. 562 #1-3, p. 563 #1,4
Thursday-Notes 16-3
Friday- finish 16-3, WS 16-3, WS Field Lines
Week of April 29
Monday- Odds, no class
Tuesday- Evens, Lab: Diffraction, ch 15 review p. 543 #1-3,6-10,12-14,16,17,19,22-26,28,31
Wednesday- Check ch 15 review
Thursday-Ch 15 Test
Friday- Notes 16-1, p.555
Week of April 22
Monday- No School
Tuesday- Lab: Young's Experiment
Wednesday-No Class odd periods
Thursday-Notes 15-2 p. 532, 534, WS 15B
Friday- Notes 15-3, p. 539
Week of April 15
Monday- No Class
Tuesday- Check ch 14 review, Ch 14 Test
Wednesday-No Class
Thursday-Notes 15-1 p. 525 #1-4, p. 525 SR, WS 15A
Friday- No School
Week of April 8
Monday- Lab, WS 14B
Tuesday - Notes 14-3 p. 504, p. 507
Wednesday-Lab
Thursday- Lab
Friday-CH 14 review p. 511 #1,2,4,5,6,9,10,12,15-18,21,24-26,28-31,35,37
Week of April 1
Monday- check ch 13 review
Tuesday - CH 13 Test
Wednesday-Notes 14-1 p. 489
Thursday- Notes 14-2 p. 497,p. 501
Friday-Lab
Week of March 25- Start of 4th Quarter
Monday- Lab- Curved Mirrors
Tuesday - finish lab, WS 13A and 13B #1-5
Wednesday-Notes 13-4 p. 472
Thursday- Lab: Physics classroom activities (2)
Friday- Ch 13 Review, p. 475-477 #1-3, 7-9,11,12,14,16-18, 22-27,31,32,34-38,40,41-44,46
Learning Targets
Chapter 1
Describe the process of the scientific method
Identify the fields of physics
Convert measurements into scientific notation
Describe and convert SI units
Distinguish between accuracy and precision
Use significant figures in measurements and calculations
Interpret data in table, graph, and equation form
Use dimensional analysis
Chapter 2
Describe motion using displacement, time, velocity, and frame of reference
Calculate displacement
Construct and interpret position-time graphs
Define Acceleration
Interpret velocity-time graphs
Apply kinematic equations to calculate distance, time, or velocity under constant acceleration
Relate the motion of a free falling body to constant acceleration
Calculate displacement, time, and velocity during the motion of a falling object
Physics Chapter 3
Distinguish between a scalar and a vector.
Multiply and divide vectors by scalars.
Calculate the magnitude and direction of a resultant vector. (tangent and Pythagorean )
Resolve vectors into their components (vertical and horizontal). (sin and cosine)
Add vectors that are not perpendicular.
Identify examples of projectile motion.
Apply kinematic equations to solve for time, velocity, or displacement involving projectile motion.
Describe situations in terms of frame of reference.
Solve problems involving relative velocity.
Physics Chapter 4
Interpret and construct free-body diagrams.
Describe how force affects the motion of an object.
Explains the relationship between the motion of an object and net external force acting on the object. (Newton’s First Law)
Determine the net external force on an object.
Calculate the force required to bring an object into equilibrium.
Describe an object’s acceleration in terms of its mass and the net force acting on it. (Newton’s Second Law)
Predict the direction and magnitude of the acceleration causes by a known net force.
Identify action-reaction pairs.
Explain the difference between mass and weight.
Find the direction and magnitude of normal forces.
Describe air resistance as a form of friction.
Use coefficients of friction to calculate frictional forces.
Physics Chapter 5
Recognize the difference between scientific work and ordinary work.
Identify where work is being done.
Calculate net work when many forces are applied.
Identify different forms of energy.
Calculate kinetic energy for an object.
Apply the work-kinetic energy theorem to solve problems.
Distinguish between KE and PE.
Calculate PE associate with an object’s position.
Classify different types of PE.
Solve problems using conservation of ME.
Relate the concepts of energy, time, and power.
Calculate power in two different ways.
Physics Chapter 6
Compare the momentum of different moving objects.
Identify examples of change in the momentum of an object.
Describe changes in momentum in terms of force and time.
State the law of conservation of momentum.
Describe the interaction between two objects in terms of the change in momentum of each object.
Compare the total momentum of two objects before and after they interact.
Predict the final velocities of objects after collision, given initial velocities.
Identify different types of collisions (elastic vs inelastic).
Determine the changes in KE during perfectly inelastic collisions.
Compare conservation of momentum and conservation of KE in perfectly inelastic and elastic collisions.
Find the final velocity of an object in perfectly inelastic and elastic collisions.
Chapter 7
Solve problems involving centripetal force and centripetal acceleration
Apply Newton’s law of universal gravitation
Explain how Newton’s law of universal gravitation accounts for various phenomena, including satellite and planetary objects and tides
Distinguish between torque and force
Calculate the magnitude of a torque on an object
Identify the six simple machines
Calculate the mechanical advantage of a simple machine
Physics Chapter 11
Identify the conditions of simple harmonic motion
Calculate spring force using Hooke’s Law
Explain how force, velocity, and acceleration change as an object vibrates with simple harmonic motion
Identify amplitude of vibration
Recognize the relationship between period and frequency
Calculate the period and frequency of an object vibrating with simple harmonic motion
Differentiate between pulse waves and periodic waves
Distinguish between transverse and longitudinal waves
Apply the relationship among wave speed, frequency, and wavelength to solve problems
Relate energy and amplitude
Apply the superposition principle
Differentiate between constructive and destructive interference
Predict when a reflected wave will be inverted
Predict what frequencies and wavelengths produce standing waves
Identify nodes and antinodes of a standing wave
Physics Chapter 12
Explain how sound waves are produced
Relate frequency to pitch
Compare the speed of sound in various media
Explain the Doppler Effect and how it relates to frequency shift and motion
Calculate the intensity of sound waves
Explain resonance
Relate intensity to perceived loudness
Differentiate between the harmonic series or open and closed pipes
Calculate the harmonics of a vibrating string and of open and closed pipes
Relate frequency differs between two waves to the number of beats
Chapter 13
Identify the components of the electromagnetic spectrum
Calculate the frequency or wavelength of electromagnetic radiation
Describe how the brightness of a light source is affected by distance
Distinguish between specular and diffuse reflection of light
Apply the law of reflection for flat mirrors
Describe the nature of images formed by flat mirrors
Distinguish between real and virtual images
Calculate distances (image and object), focal lengths, and magnification for concave and convex mirrors
Describe differences and similarities between concave and convex mirrors
Describe how parabolic mirrors differ from spherical mirrors
Recognize how additive colors affect the color of light
Recognize how pigments affect the color of reflected light
Explain how linearly polarized light is formed and detected
Chapter 14
Recognize situations in which refraction will occur
Identify which direction light will bend when it passes from one medium to another
Solve problems using Snell’s Law
Solve problems sing the thin-lens equation
Calculate the magnification of lenses
Describe the use of lenses in microscopes and telescopes
Predict whether light will be refracted or undergo total internal reflection
Recognize atmospheric conditions that cause refraction
Explain dispersion
Chapter 15
Describe how light waves interfere with each other to produce bright and dark fringes
Identify the conditions required for interference
Use the double slit interference equation to predict location of interference fringes
Describe how light waves bend around obstacles and produce bright and dark fringes
Calculate the positions of fringes for a diffraction grating
Describe the properties of laser light
Chapter 16
Understand the basic properties of electric charge
Differentiate between conductors and insulators
Distinguish between charging by contact, induction and polarization
Calculate electric force using Coulomb’s Law
Compare electric force with gravitational force
Apply the superposition principle to find the resultant force on a charge and to find the position at which the net force on a charge is zero
Calculate the electric field strength
Draw and interpret electric field lines
Identify the four properties associated with a conductor in electrostatic equilibrium
Chapter 17
Distinguish between electrical potential energy, electric potential, and potential difference.
Solve problems involving electrical energy and potential difference.
Describe the energy conversions that occur in a battery
Describe the basic properties of electric current.
Solve problems related to current, charge and time.
Distinguish between the drift speed of a charge carrier and the average speed of the charge carrier between collisions
Calculate resistance, current, and potential difference.
Distinguish between ohmic and nonohmic materials
Describe what factors affect resistance.
Differentiate between alternate direct current
Relate electric power to the rate at which electric energy is converted to other forms of energy
Calculate electric power and the cost of running electrical appliances