DISTRICT CAMPUS

## Physics (Honors)

Test #9 (through Lesson 36)

1. Average Acceleration & Position from Given Graph (Lesson 36 #20)
2. Position/Velocity/Acceleration (Lesson 36 #18)
3. Ball Dropped from a Height (Lesson 36 #15)
4. Two Masses on Frictionless Table (Lesson 33 #7)
5. Two Blocks with a Frictionless Pully(Lesson 36 #7)
6. Snell’s Law (Lesson 36 #5)
7. Wavelengths (Lesson 36 #6)
8. Angular Speed & Acceleration (Lesson 36 #3)
9. Angular Speed & Acceleration (Lesson 36 #4)
10. Bouyancy Force (Lesson 36 #1)

Test #8 (through Lesson 32)

1. Astronaut in Rocket (Lesson 30 #19)
2. Block on Frictionless Surface (Lesson 30 #15)
3. Use Calculus to find Instantaneous Velocity (Lesson 29 #13)
4. Block on Frictionless Plane (Lesson 32 #10)
5. Block on Frictionless Plane (Lesson 32 #8)
6. Two Balls Colliding (Lesson 31 #4)
7. Cannon Firing Projectile (Lesson 30 #2)
8. Bullet Imbeds in Block (Lesson 32 #5)
9. Snell’s Law (Lesson 32 #3, #4)
10. Ideal Gas Problem (Lesson 32 #1, #2)

First Quarter Exam (through Lesson 24)

1. Add/Subtract/Multiply/Divide as needed & round to proper sig figs (Lesson 1 #13, #14, #15 & Lesson 2 #15, #16, #17, #18)
2. Add Vectors and put in polar form (Lesson 3 #4, Lesson 4 #12)
3. Block being pushed at an angle (Lesson 18 #3, #4)
4. Two wrenches & find torque (Lesson 13 #12)
5. Find change in momentum (Leson 26 #10, #11)
6. Sig Figs (Lesson 1 #7-#12)
7. Unit Multipliers (Lesson 2 #6-#10)
8. Definition of vector (Need to be able to apply definition)
9. Balance a system (Lesson 23 #15)
10. Definition of velocity (Need to be able to apply definition)
11. Elevator problem (Lesson 15 #3)
12. Pulley question (Lesson 24 #14)
13. Block being pushed at an angle (Lesson 23 #12)
14. Center of mass (Lesson 23 #2)
15. Position & Velocity Fomulas (Lesson 23 #3)

Test #6 (through Lesson 24)

1. Tension (Lesson 19 #13)
2. Weightless Beam on Fulcrum (Lesson 20 #9, Lesson 24 #16)
3. Pulley (Lesson 23 #13)
4. Bodies in Equilibrium (Lesson 23 #11)
5. Position, Velocity, Acceleration (Lesson 24 #4, #5, #10, #11)
6. Impulse-Momentum (Lesson 24 #7)
7. Change in Momentum (Lesson 23 #5, Lesson 24 #6)
8. Derivative & Integration (Lesson 23 #4)
9. Center of Mass (Lesson 23 #2)
10. Position, Velocity, Acceleration (Lesson 24 #1)

Test #5 (through Lesson 20)

1. F=ma (Lesson 20, #16)
2. Free-Body Diagrams (Lesson 19, #13)
3. Elevator Problem (Lesson 20, # 13)
4. Pulley System (Lesson 20, #10)
5. Force & Mechanical Advantage (Lesson 19, #8)
6. Sliding Block Problem (Lesson 20, #7)
7. Bodies in Equilibrium (Lesson 20, #5)
8. Acceleration & Distance Traveled (Lesson 20, #3 & #4)
9. Food Calories Expended (Lesson 20, #1)
10. Specific Heat (Lesson 20, #2)

Test #4 (through Lesson 16)

1. Find T1 and T2 (Lesson 16, #17)
2. Convert F to K (Lesson 16 #16)
3. Wrench/Torque (Lesson 14 #12)
4. Average Acceleration from Graph (Lesson 13 #4)
5. Work & Average Power (Lesson 15 #10)
6. Instantaneous Velocity & Average Velocity (Lesson 16 #8)
7. Elevator Problem (Lesson 16 #6 & #7)
8. Weightless Beam (Lesson 16 #4 & #5)
9. Pulley System (Lesson 16 #1)
10. Efficiency of Machines (Lesson 16 #2)

Test #3 (Through Lesson 12)

1. Write a vector in polar form (Lesson 7, #13 & #14)
2. Add vectors and write in rectangular form (Lesson 12, #19)
3. rho=m/V (Lesson 12, #18)
4. Find T1 and T2 (Lesson 11, #14)
5. Fk = μkFN (Lesson 12, #9)
6. Balance the beam (Lesson 12, #7)
7. Forces on a Wrench (Lesson 11, #5)
8.  Acceleration & Position of Particle from Graph (Lesson 12, #5 & #6)
9. Acceleration (Lesson 12, #3 & #4)
10. Work & Average Power (Lesson 12, #1)

Test #2 (Through Lesson 8)

1. Add vectors & write in polar form (Lesson 8, #16 & #17)
2. Distance, Average Speed, Displacement, & Average Velocity (Lesson 7, #8)
3. W=mg (Lesson 8, #15)
4. rho=m/V (Lesson 8, #14)
5. T1 & T2 in Equilibrium (Lesson 8, #11)
6. C = 5/9 (F – 32) & K = C + 273 (Lesson 8, #8 & #9)
7. Average Acceleration (Lesson 8, #6)
8. Average Speed (Lesson 8, #5)
9. Fk = μkFN (Lesson 8, #3 & #4)
10. FS = μSFN (Lesson 8, #1 & #2)

Test #1 (Through Lesson 4)

1. Write numbers in scientific notation
2. State the number of significant digits
3. Simplify fractions
4. Unit multipliers
5. Add, subtract, multiply, divide & write answer with correct number of significant digits
6. Vector