A.P. Prep -- 2020

 

 

Note to non-Poly users:

 

Problems

Mechanics:

1.) the spider.docx

1.) the spider.pdf

2.) pinned rod and disk.docx

2.) pinned rod and disk.pdf

3.) woman walking.docx

3.) woman walking.pdf

4.) gravity lab.docx

4.) gravity lab.pdf

5.) wheel on incline.docx

5.) wheel on incline.pdf

6.) perfectly elastic bounce.docx

6.) perfectly elastic bounce.pdf

7.) graphs.docx

7.) graphs.pdf

8.) drag experiment.docx

8.) drag experiment.pdf

9.) dart hitting mass.docx

9.) dart hitting mass.pdf

10.) table and rope.docx

10.) table and rope.pdf

11.) curved inclines.docx

11.) curved inclines.pdf

 

E&M:

1.) voltage lines.docx

1.) voltage lines.pdf

2.) Gauss's Law.docx

2.) Gauss's Law.pdf

3.) ringed charge.docx

3.) ringed charge.pdf

4.) circuit.docx

4.) circuit.pdf

5.) insulated spherical well.docx

5.) insulated spherical well.pdf

6.) exotic capacitor circuit.docx

6.) exotic capacitor circuit.pdf

7.) field lines n potentials.docx

7.) field lines n potentials.pdf

8.) Gauss's Law 2.docx

8.) Gauss's Law 2.pdf

9.) equipotentials.docx

9.) equipotentials.pdf

10.) battery emf.docx

10.) battery emf.pdf

 

 

Solutions

Mechanics solutions:

1.) the spider solution.pdf

2.) pinned rod and disk solution.pdf

3.) woman walking solutions.pdf

4.) gravity lab.pdf

5.) wheel on incline solution.pdf

6.) perfectly elastic bounce solution.pdf

7.) graphs.pdf

8.) drag experiment.pdf

9.) dart hits mass.pdf

10.) table and rope.pdf

11.) curved inclines.pdf

 

E&M solutions

1.) voltage lines.pdf

2.) Gauss's Law solution.pdf

3.) ringed charge solution.pdf

4.) circuit.pdf

5.) insulated spherical well.pdf

6.) exotic capacitor circuit.pdf

7.) field lines n potentials.pdf

8.) Gauss's Law 2.pdf

9.) equipotentials.pdf

10.) battery emf.pdf

 

 

Review materials

Summary of Classical Mechanics (through Rotation)--pdf

 

Summary of E&M (through Circuits)--pdf