ap-student-exam-day-checklist.pdf |

ap-testing-guide-2020.pdf |

ap_physics_04_01_2020.pdf |

ap_c_frq_unit_1_.pdf |

frq_unit_1_scoring_guide.pdf |

**Please Read Chapters 21 and 22 in Halliday & Resnick**

**Click the YouTube link to view lessons.**

The videos are saved, so you can always watch them them later.

And I will be uploading showme lessons as well.

The videos are saved, so you can always watch them them later.

And I will be uploading showme lessons as well.

**3. And watch the videos below.**

**Sorry about the sound quality.**

I will try to fix this for future lessons.

I will try to fix this for future lessons.

**Please work all the problems below involving Potential Energy Functions!**

read_this_.pdf |

## Derivatives And Integrals And Graphs, Oh My!

**AP Physics C Term 1 Revision Guide Chapters 1 - 3 Click File Below**

ap_physics_c_revision_guide.pdf |

**germinal velocity!**

**Please download and begin working problems on 1D and 2D motion.**

All of these problems are from released AP Physics C exams.

All of these problems are from released AP Physics C exams.

ap-physics-c-workbook.pdf |

**ROCKET**

SCIENCE

ROCKS

SCIENCE

ROCKS

AP Physics 2019 - 2020 Mr. Gonzales The International School of Minnesota

Textbook: Halliday, Resnick, Walker Fundamentals of Physics 10th Edition; Barrons AP Physics C 4th edition

*Course organization and requirements.*AP Physics 2019 - 2020 Mr. Gonzales The International School of Minnesota

Textbook: Halliday, Resnick, Walker Fundamentals of Physics 10th Edition; Barrons AP Physics C 4th edition

**Chapter 1: sections 1-7**

MECHANICS

Chapter 2: straight line motion

Chapter 3: vectors

Chapter 4: 2-3 dimension motion

Chapter 5: Force and Motion

Chapter 6: Force and Motion

Chapter 7: Kinetic Energy and Work

Chapter 8: Potential Energy, conservation

Chapter 9: Center of Mass, Lin Momentum

Chapter 10: Rotation

Chapter 11: Rolling, Torque, and Ang Mom.

Chapter 12: Equilibrium and Elasticity

Chapter 13: Gravitation

Chapter 14: Oscillations

ELECTRICITY

Chapter 21: Electric Charge

Chapter 22: Electric Fields

Chapter 23: Gauss’ Law

Chapter 24: Electric Potential

Chapter 25: Capacitance

Chapter 26: Current & Resistance

Chapter 27: Circuits

Chapter 28: Magnetic Fields

Chapter 29: Magnetic Fields due to Currents

Chapter 30: Induction

Chapter 32: Maxwell’s Equation

MECHANICS

Chapter 2: straight line motion

Chapter 3: vectors

Chapter 4: 2-3 dimension motion

Chapter 5: Force and Motion

Chapter 6: Force and Motion

Chapter 7: Kinetic Energy and Work

Chapter 8: Potential Energy, conservation

Chapter 9: Center of Mass, Lin Momentum

Chapter 10: Rotation

Chapter 11: Rolling, Torque, and Ang Mom.

Chapter 12: Equilibrium and Elasticity

Chapter 13: Gravitation

Chapter 14: Oscillations

ELECTRICITY

Chapter 21: Electric Charge

Chapter 22: Electric Fields

Chapter 23: Gauss’ Law

Chapter 24: Electric Potential

Chapter 25: Capacitance

Chapter 26: Current & Resistance

Chapter 27: Circuits

Chapter 28: Magnetic Fields

Chapter 29: Magnetic Fields due to Currents

Chapter 30: Induction

Chapter 32: Maxwell’s Equation

**What about all those AP study guides I can buy?**

**We will use the Barrons guide.**

Really nice introduction to a calculus based college physics course.

You should really watch the entire lecture because this guy is really good.

You should really watch the entire lecture because this guy is really good.

Please notice...No calculator required. AND teachers can make mistakes.

If you ever notice me making a mistake while working a problem, PLEASE tell me. Or throw something at me.

If you ever notice me making a mistake while working a problem, PLEASE tell me. Or throw something at me.

Week 1:

Monday: Review math, units, basic stuff.

Tuesday:Begin reading ch 2. We will work some problems on 1 d motion.

Wednesday: Introduce basic calculus derivation of kinematic equations. Work Problems. HW ch2 14,15,16,17.

Thursday: Work problems.

Friday: Test on 1 d motion

Monday: Review math, units, basic stuff.

Tuesday:Begin reading ch 2. We will work some problems on 1 d motion.

Wednesday: Introduce basic calculus derivation of kinematic equations. Work Problems. HW ch2 14,15,16,17.

Thursday: Work problems.

Friday: Test on 1 d motion

WEEK 2

TUESDAY: Work free fall problems.

WEDNESDAY: Area under v vs. t graphs

THURSDAY: Work problems and turn in for grade. You may work together.

Friday: FREE FALL LAB!!!!!!!

TUESDAY: Work free fall problems.

WEDNESDAY: Area under v vs. t graphs

THURSDAY: Work problems and turn in for grade. You may work together.

Friday: FREE FALL LAB!!!!!!!

WEEK 3:

Monday: LAB: Obtaining motion graphs using Logger Pro And Little Blue and Little Red. Use Analysis to confirm area under graph=displacement.

Tuesday: Begin motion in 2d. Start reading CH 3. A look at VECTORS, I, j, k notation.

Wednesday: Boats and airplanes.

Thursday: work problems in class.

Friday: Projectile motion.

Monday: LAB: Obtaining motion graphs using Logger Pro And Little Blue and Little Red. Use Analysis to confirm area under graph=displacement.

Tuesday: Begin motion in 2d. Start reading CH 3. A look at VECTORS, I, j, k notation.

Wednesday: Boats and airplanes.

Thursday: work problems in class.

Friday: Projectile motion.

**AP Physics C.**

Try this one.

I know you could find the solution online, but give it a try without looking at the solution first.

Try this one.

I know you could find the solution online, but give it a try without looking at the solution first.

WEEK OF OCTOBER 1 - 5

**MONDAY: Test 1 Term 1**

TUESDAY: Review test. Begin Chapter 5. Forces and Newton's Laws.

WEDNESDAY: Work problems involving single bodies and second law. Weight, normal force. HW Page 116 1-5

THURSDAY: Problems with pulleys.

FRIDAY: More problems. HW page 120 50-53TUESDAY: Review test. Begin Chapter 5. Forces and Newton's Laws.

WEDNESDAY: Work problems involving single bodies and second law. Weight, normal force. HW Page 116 1-5

THURSDAY: Problems with pulleys.

FRIDAY: More problems. HW page 120 50-53

**WEEK OF OCTOBER 8 - 12**

MONDAY: Resistive force proportional to velocity II. Begin Chapter 6

TUESDAY: Atwood Machine problem.

WEDNESDAY: Atwood Machine LAB. HW Selected released AP problems.

THURSDAY: Cart + Pulley + Mass.

FRIDAY: Cart + Pulley + Mass LAB.

WEEK OF ROCKTOBER 15-19

MONDAY: LAB. Really. I promise!

TUESDAY: Inclined Plane problems.

MONDAY: Resistive force proportional to velocity II. Begin Chapter 6

TUESDAY: Atwood Machine problem.

WEDNESDAY: Atwood Machine LAB. HW Selected released AP problems.

THURSDAY: Cart + Pulley + Mass.

FRIDAY: Cart + Pulley + Mass LAB.

WEEK OF ROCKTOBER 15-19

MONDAY: LAB. Really. I promise!

TUESDAY: Inclined Plane problems.

**WEDNESDAY: More inclined planes.**

**WEEK OF ROCKTOBER 22 - 26**

MONDAY: LAB from last week due.Inclined Planes.

TUESDAY: Inclined Plane problems.

WEDNESDAY: LAB ON INCLINED PLANES.

THURSDAY: LAB: DETERMINING AN UNKNOWN MASS.

FRIDAY: Review lab.

MONDAY: LAB from last week due.Inclined Planes.

TUESDAY: Inclined Plane problems.

WEDNESDAY: LAB ON INCLINED PLANES.

THURSDAY: LAB: DETERMINING AN UNKNOWN MASS.

FRIDAY: Review lab.

**WEEK OF OCTOBER 29 - NOVEMBER 2**

Your 2nd periodic will be 3 released AP mechanics problems. We have done problems like these in class. They are ALL somewhere online INCLUDING scoring guidelines. The problems will be restricted to Newton's laws and some kinematics.

So really, there is NO REASON for any student in this class to score less than 100.

**REVIEW, REVIEW, REVIEW,**all the problems posted on this website.

**WEEK OF NOVEMBER 26 TO NOVEMBER 30**

READ CHAPTERS 7 AND 8. WORK ALL RELEASED AP PROBLEMS POSTED BELOW.

PLEASE NOTE THAT POTENTIAL ENERGY IS DENOTED BY U. KINETIC ENERGY BY K. TOTAL MECHANICAL ENERGY BY E.

MONDAY: Work-Energy Theorem.

TUESDAY: Work some work problems

WEDNESDAY: Work and energy and conservation laws. Conservative forces and potential energy

THURSDAY: Work released AP problems.

FRIDAY: Work released AP problems.

Try to work the problem below. No calculus. Nothing required that you did not learn in Physics I.

I will buy you a cheese cake if you give me the solution to this on Monday.

READ CHAPTERS 7 AND 8. WORK ALL RELEASED AP PROBLEMS POSTED BELOW.

PLEASE NOTE THAT POTENTIAL ENERGY IS DENOTED BY U. KINETIC ENERGY BY K. TOTAL MECHANICAL ENERGY BY E.

MONDAY: Work-Energy Theorem.

TUESDAY: Work some work problems

WEDNESDAY: Work and energy and conservation laws. Conservative forces and potential energy

THURSDAY: Work released AP problems.

FRIDAY: Work released AP problems.

Try to work the problem below. No calculus. Nothing required that you did not learn in Physics I.

I will buy you a cheese cake if you give me the solution to this on Monday.

A small mass, m, is released from rest on top of a big ball, radius R. No friction. It starts to slide down the ball and at some point, leaves the surface of the ball.

Question: At what angle theta, does the small mass lose contact with the ball?

Interesting fact. Answer is independent of R, m and g.

Question: At what angle theta, does the small mass lose contact with the ball?

Interesting fact. Answer is independent of R, m and g.

**WEEK OF DEC 3 TO DEC 7**

MONDAY: Work selected released AP problems on conservation of energy and potential energy functions

TUESDAY: Begin CH 9. Center of mass and linear momentum. Conservation of momentum. Impulse.

WEDNESDAY: Work selected released AP problems involving c.m. and momentum.

THURSDAY: LAB: Use logger, motion sensors and tracks to investigate collisions.

FRIDAY: Review and discuss lab results.

MONDAY: Work selected released AP problems on conservation of energy and potential energy functions

TUESDAY: Begin CH 9. Center of mass and linear momentum. Conservation of momentum. Impulse.

WEDNESDAY: Work selected released AP problems involving c.m. and momentum.

THURSDAY: LAB: Use logger, motion sensors and tracks to investigate collisions.

FRIDAY: Review and discuss lab results.

**WEEK OF DEC 10 TO DEC 14**

MONDAY: Work more c.m. problems.

TUESDAY: Lab on conservation of momentum. Really. Seriously this time.

WEDNESDAY: Work selected released AP problems.

THURSDAY: Begin Rotation. You should READ chapter 10.

FRIDAY: All THINGS ANGULAR.

BLOBS. What's the deal with blobs? Well, I guess a blob is just an idealization of a RIGID BODY, that is, NON DEFORMABLE. So, yeah, physicists and physics teachers draw blobs because one day the blob will grow up to be a cube or a cylinder or sphere.

MONDAY: Work more c.m. problems.

TUESDAY: Lab on conservation of momentum. Really. Seriously this time.

WEDNESDAY: Work selected released AP problems.

THURSDAY: Begin Rotation. You should READ chapter 10.

FRIDAY: All THINGS ANGULAR.

BLOBS. What's the deal with blobs? Well, I guess a blob is just an idealization of a RIGID BODY, that is, NON DEFORMABLE. So, yeah, physicists and physics teachers draw blobs because one day the blob will grow up to be a cube or a cylinder or sphere.

This sphere was once a baby blob.

A momma blob and her baby.

Pancake blob

**WEEK OF DEC 17 TO DEC 21**

MONDAY: More moments. Parallel Axes Theorem.

TUESDAY: Rolling motion. Balls and hoops and cylinders rolling down inclines.

WEDNESDAY: Angular momentum and the conservation thereof.

THURSDAY: Work selected AP problems on rolling motion and angular momentum.

FRIDAY: ?????????????????

MONDAY: More moments. Parallel Axes Theorem.

TUESDAY: Rolling motion. Balls and hoops and cylinders rolling down inclines.

WEDNESDAY: Angular momentum and the conservation thereof.

THURSDAY: Work selected AP problems on rolling motion and angular momentum.

FRIDAY: ?????????????????

## PLEASE TRY TO WORK THESE PROBLEMS!

(f) Why is this guy not wearing a coat, gloves or a cap? If the surface is frozen, wouldn't he be freezing his mass off?

There are three l's in balll. Right?

Yeah. That's the thing about spelling and grammar. The rules are so freaking arbitrary!

y after c except before b? Who can remember all that... stuff.

Physics and math on the other hand are well defined and self consistent.

Yeah. That's the thing about spelling and grammar. The rules are so freaking arbitrary!

y after c except before b? Who can remember all that... stuff.

Physics and math on the other hand are well defined and self consistent.

Show these equations to a scientist in ANY country speaking ANY language and they will immediately recognize them.

Below are some notes on rotation, moment of inertia and rolling motion. You should READ THEM!

radians_and_angular_kinematics_notes.pdf |

torque_and_moment_of_inertia_notes.pdf |

**WEEK OF JAN 7 TO JAN 11**

MONDAY: Work some released AP problems involving angular momentum and torque.

TUESDAY: Video on angular momentum.

WEDNESDAY: Look at some super secret AP MC questions.

THURDAY: Gravity?

FRIDAY: Gravity and gravitational potential energy for grown ups.

MONDAY: Work some released AP problems involving angular momentum and torque.

TUESDAY: Video on angular momentum.

WEDNESDAY: Look at some super secret AP MC questions.

THURDAY: Gravity?

FRIDAY: Gravity and gravitational potential energy for grown ups.

**WEEK OF JAN 14 TO JAN 18:**

REVIEW PROBLEMS ON CONS OF ENERGY, POTENTIAL ENERGY, MOMENTUM AND CONSERVATION THEREOF, ANGULAR MOMENTUM. TORQUE AND GRAVITATION.

TAKE TERM 2 PERIODIC 1.

REVIEW PROBLEMS ON CONS OF ENERGY, POTENTIAL ENERGY, MOMENTUM AND CONSERVATION THEREOF, ANGULAR MOMENTUM. TORQUE AND GRAVITATION.

TAKE TERM 2 PERIODIC 1.

WEEK OF JAN 22-JAN 25

READ CHAPTER 14

After studying the material of this chapter, you should be able to:

1. State the conditions required to produce SHM.

2. Determine the period of motion of an object of mass

*m*attached to a spring of force constant

*k*.

3. Calculate the velocity, acceleration, potential, and kinetic energy at any point in the motion of an object undergoing SHM.

4. Write equations for displacement, velocity, and acceleration as sinusoidal functions of time for an object undergoing SHM if the amplitude and angular velocity of the motion are known. Use these equations to determine the displacement, velocity, and acceleration at a particular moment of time.

5. Determine the period of a simple pendulum of length

*L*.

TUESDAY: We will derive the fundamental differential equation that describes SHM and compare Uniform Circular Motion to SHM.

WEDNESDAY: We will derive equation for the period of a simple pendulum.

THURSDAY: Pendulum Lab

FRIDAY: we will work selected released AP problems involving SHM.

WEEK OF JAN 28 TO FEB 1:

MONDAY: We will derive an expression for the period of a PHYSICAL PENDULUM.

TUESDAY: Work some released AP problems on PHYSICAL PENDULUMS.

WEDNESDAY: Lab on PHYSICAL PENDULUMS.

THURSDAY: Discuss results of lab.

FRIDAY: Learn why buildings and bridges don't fall down. This is called STATICS.

MONDAY: We will derive an expression for the period of a PHYSICAL PENDULUM.

TUESDAY: Work some released AP problems on PHYSICAL PENDULUMS.

WEDNESDAY: Lab on PHYSICAL PENDULUMS.

THURSDAY: Discuss results of lab.

FRIDAY: Learn why buildings and bridges don't fall down. This is called STATICS.

Near the end of this presentation, I used a theta instead of an x. Sorry about that.

WEEK OF FEB 4 TO FEB 8

MONDAY: We will work the following problems. You should DOWNLOAD THEM and work them out this weekend. Be prepared to present your solutions in class on Monday.

TUESDAY: Work more released AP C problems involving SHM.

WEDNESDAY: Review for periodic 2.

THURSDAY: Take periodic 2.

FRIDAY: Begin E&M. Coulomb's law.

MONDAY: We will work the following problems. You should DOWNLOAD THEM and work them out this weekend. Be prepared to present your solutions in class on Monday.

TUESDAY: Work more released AP C problems involving SHM.

WEDNESDAY: Review for periodic 2.

THURSDAY: Take periodic 2.

FRIDAY: Begin E&M. Coulomb's law.

**With closed caption subtitles!**

**Cannot translate Bollywood! Disappointing.**

Learn how to do these problems.

Although I have shown how to do these problems, you won't be able to solve them unless you PRACTICE.

Problems like these will be on our term 2 final.

Although I have shown how to do these problems, you won't be able to solve them unless you PRACTICE.

Problems like these will be on our term 2 final.

**WEEK OF FEB 11 TO FEB 15**

MONDAY: Review Periodic 2.

TUESDAY: Gauss' Law. Problems. Lots of problems.

WEDNESDAY: More Gauss' Law.

THURSDAY: Yeah. You guessed it. Gauss' Law.

FRIDAY: REVISION?

MONDAY: Review Periodic 2.

TUESDAY: Gauss' Law. Problems. Lots of problems.

WEDNESDAY: More Gauss' Law.

THURSDAY: Yeah. You guessed it. Gauss' Law.

FRIDAY: REVISION?

**If the video above is displaying a message that it can't load or play, try re-loading this page or click the icon on the far upper right side.**

**WEEK OF FEB 19 TO FEB 22**

TUESDAY: Work 2017 E&M 1

WEDNESDAY: Work 2014 E&M 3

THURSDAY: Work 2013 E&M 1

FRIDAY: REVISION?

FYI: You end of term exam will be a complete AP MECHANICS exam (non released). Three FRQ and 35 M.C.

TUESDAY: Work 2017 E&M 1

WEDNESDAY: Work 2014 E&M 3

THURSDAY: Work 2013 E&M 1

FRIDAY: REVISION?

FYI: You end of term exam will be a complete AP MECHANICS exam (non released). Three FRQ and 35 M.C.

**REVISION GUIDE**

apc_term2_revision_guide.pdf |

**If the video above does not load try refreshing the page. Or click on the link in the upper right corner and play the video on my SHOWME account.**

**WEEK OF MARCH 11 TO MARCH 15**

MONDAY: Review multiple choice questions on Term 2 Final.

TUESDAY: Review FRQ on Term 2 Final.

WEDNESDAY: Work selected FRQ on potentials and E fields.

THURSDAY: Explain and discuss capacitance.

FRIDAY: Work released FRQ on capacitance.

MONDAY: Review multiple choice questions on Term 2 Final.

TUESDAY: Review FRQ on Term 2 Final.

WEDNESDAY: Work selected FRQ on potentials and E fields.

THURSDAY: Explain and discuss capacitance.

FRIDAY: Work released FRQ on capacitance.

**WEEK OF MARCH 18 TO MARCH 22**

MONDAY: Work released ap problem involving equipotential curves.

TUESDAY: Begin discussion on CAPACITORS. Derive expressions for parallel plate, spherical and coaxial capacitors.

WEDNESDAY: Discuss DIELECTRICS and capacitor network in series, parallel and combinations.

THURSDAY: Work released ap problems involving capacitors.

FRIDAY: Work MORE released ap E&M problems.

MONDAY: Work released ap problem involving equipotential curves.

TUESDAY: Begin discussion on CAPACITORS. Derive expressions for parallel plate, spherical and coaxial capacitors.

WEDNESDAY: Discuss DIELECTRICS and capacitor network in series, parallel and combinations.

THURSDAY: Work released ap problems involving capacitors.

FRIDAY: Work MORE released ap E&M problems.

**If video does not load try refreshing the page or click on the icon on the top right side of video to go directly to showme.com.**

**WEEK OF MARCH 25 TO MARCH 28**

MONDAY: Work above problem. Do problems involving capacitor networks.

TUESDAY: Begin current and resistance. Simple DC circuits. Ohm's Law.

WEDNESDAY: Kirchoff's Laws.

THURSDAY: Internal resistance. Work selected released AP problems.

MONDAY: Work above problem. Do problems involving capacitor networks.

TUESDAY: Begin current and resistance. Simple DC circuits. Ohm's Law.

WEDNESDAY: Kirchoff's Laws.

THURSDAY: Internal resistance. Work selected released AP problems.

**WEEK OF APRIL 8 TO APRIL 12**

MONDAY: Work problems involving resistor networks. Multi loop circuits.

TUESDAY: LAB. Determine the value of an unknown resistor.

WEDNESDAY: DC circuits with capacitors and resistors. Steady state vs. transient behavior.

THURSDAY: Work selected released AP problems.

FIRDAY: Begin magnetism. Forces on charged particles in B fields.

MONDAY: Work problems involving resistor networks. Multi loop circuits.

TUESDAY: LAB. Determine the value of an unknown resistor.

WEDNESDAY: DC circuits with capacitors and resistors. Steady state vs. transient behavior.

THURSDAY: Work selected released AP problems.

FIRDAY: Begin magnetism. Forces on charged particles in B fields.

**WEEK OF MAY 6 TO MAY 10**

1. E&M 2012 PROBLEM 3

1. E&M 2012 PROBLEM 3