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Making the Most of Your Internship & Co-op Experience
Conducting a Literature Review
Avoiding Plagiarism Using APA Style (7th ed.)
Avoiding Plagiarism Using MLA Style (9th Ed.)
Citing Sources Using APA Style 7th ed.
Citing Sources Using MLA (9th Ed.)
Recognizing a Research Study
Creating a Search Strategy
Evaluating Websites
Moving Into Discipline Specific Research
Selecting Articles for Academic Assignments
Lesson Title (Instrumented Design – Public Template)
Interpretation of Visual Displays of Information
1D02: Average Velocity and Average Speed
1D01: Distance and Displacement
10. More Work and Mechanical Energy Problems
N03: Accelerating Objects
2. Impulse
F04: Newton's First Law and Static Friction
1D06: Motion with Constant Acceleration I
7. Elastic and Inelastic Collisions
AM03: Parallel Axis Theorem
8. Problems with Two Types of Potential Energy
9. Work and Mechanical Energy
6. Simple Application of Conservation of Mechanical Energy
F06: Springs and Tilted Coordinate Systems
RKR04: Rotational Kinematics Tutorial (Part 4)
1D03: Position-Time Graphs and Instantaenous Velocity
RK03: Rotational Kinematics
RK02: Equilibrium of a Rigid Object
2D05: Projectile Motion II
N01: Newton's Second Law
F05: Friction
RK01: Rotation and Torque
RKR05: Rotational Kinematics Tutorial (Part 5)
2D03: Constant Acceleration Motion in 2D
C03: Applications of Centripetal Forces
RK06: Applying Newton's Second Law of Rotational Motion
F03: Common Forces and Newton's Third Law
1D08: Solving Problems in 1 Dimension
1D04: Velocity-Time Graphs
3. Work and Kinetic Energy
9. Center of Mass
F02: Forces as Vectors
2D07: Uniform Circular Motion
C02: Centripetal Forces
2D04: Projectile Motion I
AMR02: Conservation of Angular Momentum Tutorial (Part 2)
E01 Kinetic Energy Basics
N04: Composite Objects and Multiple Systems
AM04: Angular Momentum of a Single Particle
RK05: Moment of Inertia
8. Ballistic Pendulum
RKR02: Rotational Kinematics Tutorial (Part 2)
RK07: Rotational Kinetic Energy
3. Impulse and Momentum
AM01: Angular Momentum and Angular Impulse
4. Conservation of Linear Momentum
1. Linear Momentum
F01: Conceptual Understanding of Force
4. Potential Energy
7. Problems with Conservation of Mechanical Energy (CME)
2D08: Centripetal Acceleration
F07: Systems of Analysis and Massless Objects
AMR04: Conservation and Angular Momentum Tutorial (Part 4)
5. When is Mechanical Energy Conserved
RKR03: Rotational Kinematics Tutorial (Part 3)
2D06: Projectile Motion III
AMR05: Conservation of Angular Momentum Tutorial (Part 5)
1D07: Motion with Constant Acceleration II
C01: Centripetal Acceleration
1D05: The Acceleration Vector
AMR03: Conservation of Angular Momentum Tutorial (Part 3)
N05: Newton's Laws in 2D
AM02: Conservation of Angular Momentum
E02. Mechanical Energy: Work
2D02: Acceleration in 2D
RKR01: Rotational Kinematics Tutorial (Part 1)
5. Collisions
N02: Newton's Third Law of Motion Revisited
RK04: Connecting Linear and Rotational Motion
2D01: Position, Velocity, and Displacement in 2D
6. Explosions