Difference between revisions of "Mechanics"

Revision as of 18:36, 6 June 2014

1A - Measurements

10. Basic units

20. Error and accuracy

30. Coordinate Systems

40. Vectors

50. Math Topics

60. Scaling

1C - Motion in one dimension

10. Velocity

20. Uniform Acceleration

30. Measuring g

1D - Motion in two dimensions

10. Displacement in Two Dimensions

15. Velocity, position and Acceleration

40. Motion of the Center of Mass

50. Central Forces

52. Deformation by Central forces

55. Centrifugal Escape

60. Projectile Motion

1E - Relative Motion

10. Moving Reference Frames

20. Rotating Reference Frames

30. Coriolis Effect

1F - Newton's First Law

10. Measuring Inertia

20. Inertia of Rest

30. Inertia of Motion

1G - Newton's Second Law

10. Force, Mass and Acceleration

20. Accelerated Reference Frames

30. Complex Systems

1H - Newton's Third Law

10. Action and Reaction

11. Recoil

1J - Statics and Rigid bodies

10. Finding Center of Gravity

11. Exceeding Center of Gravity

20. Stable, Unstable, and Neutral Equilibrium

30. Resolution of Forces

40. Static Torque

1K - Applications of Newton's Law

10. Dynamic Torque

20. Friction

30. Pressure

1L - Gravity

10. Universal Gravitational Constant

20. Orbits

1M - Work and Energy

10. Work

20. Simple Machines

30. Non-Conservative forces

40. Conservation of Energy

50. Mechanical Power

1N - Linear Momentum and Collisions

10. Impulse and Thrust

20. Conservation of Linear Momentum

21. Mass and Momentum Transfer

22. Rockets

30. Collisions on One Dimension

40. Collisions in Two Dimensions

1Q - Rotational Dynamics

10. Moment of Inertia

20. Rotational Energy

30. Transfer of Angular Momentum

40. Conservation of Angular Momentum

50. Gyros

60. Rotational Stability

1R - Properties of Matter

10. Hooke's Law

20. Tensile and Compressible Stress

30. Shear Stress

40. Coefficient of Restitution

50. Crystal Structure

@@ Line 52: / Line 52: @@
 ===40. Static Torque===
-==1K - ==
+==1K - Applications of Newton's Law==
-===10. ===
+===10. Dynamic Torque===
-===20. ===
+===20. Friction===
-===30. ===
+===30. Pressure===
-==1L - ==
+==1L - Gravity==
-===10. ===
+===10. Universal Gravitational Constant===
-===20. ===
+===20. Orbits===
-==1M - ==
+==1M - Work and Energy==
-===10. ===
+===10. Work===
-===20. ===
+===20. Simple Machines===
-===30. ===
+===30. Non-Conservative forces===
-===40. ===
+===40. Conservation of Energy===
-===50. ===
+===50. Mechanical Power===
-==1N - ==
+==1N - Linear Momentum and Collisions==
-===10. ===
+===10. Impulse and Thrust===
-===20. ===
+===20. Conservation of Linear Momentum===
-===21. ===
+===21. Mass and Momentum Transfer===
-===22. ===
+===22. Rockets===
-===30. ===
+===30. Collisions on One Dimension===
-===40. ===
+===40. Collisions in Two Dimensions===
-==1Q - ==
+==1Q - Rotational Dynamics==
-===10. ===
+===10. Moment of Inertia===
-===20. ===
+===20. Rotational Energy===
-===30. ===
+===30. Transfer of Angular Momentum===
-===40. ===
+===40. Conservation of Angular Momentum===
-===50. ===
+===50. Gyros===
-===60. ===
+===60. Rotational Stability===
-{{subst:Collapse|1=Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat. Duis aute irure dolor in reprehenderit in voluptate velit esse cillum dolore eu fugiat nulla pariatur. Excepteur sint occaecat cupidatat non proident, sunt in culpa qui officia deserunt mollit anim id est laborum.|2=Heading}}
+==1R - Properties of Matter==
+===10. Hooke's Law===
-==1R - ==
+===20. Tensile and Compressible Stress===
-===10. ===
+===30. Shear Stress===
-===20. ===
+===40. Coefficient of Restitution===
-===30. ===
+===50. Crystal Structure===
-===40. ===
-===50. ===

Difference between revisions of "Mechanics"

Revision as of 18:36, 6 June 2014

1A - Measurements

10. Basic units

20. Error and accuracy

30. Coordinate Systems

40. Vectors

50. Math Topics

60. Scaling

1C - Motion in one dimension

10. Velocity

20. Uniform Acceleration

30. Measuring g

1D - Motion in two dimensions

10. Displacement in Two Dimensions

15. Velocity, position and Acceleration

40. Motion of the Center of Mass

50. Central Forces

52. Deformation by Central forces

55. Centrifugal Escape

60. Projectile Motion

1E - Relative Motion

10. Moving Reference Frames

20. Rotating Reference Frames

30. Coriolis Effect

1F - Newton's First Law

10. Measuring Inertia

20. Inertia of Rest

30. Inertia of Motion

1G - Newton's Second Law

10. Force, Mass and Acceleration

20. Accelerated Reference Frames

30. Complex Systems

1H - Newton's Third Law

10. Action and Reaction

11. Recoil

1J - Statics and Rigid bodies

10. Finding Center of Gravity

11. Exceeding Center of Gravity

20. Stable, Unstable, and Neutral Equilibrium

30. Resolution of Forces

40. Static Torque

1K - Applications of Newton's Law

10. Dynamic Torque

20. Friction

30. Pressure

1L - Gravity

10. Universal Gravitational Constant

20. Orbits

1M - Work and Energy

10. Work

20. Simple Machines

30. Non-Conservative forces

40. Conservation of Energy

50. Mechanical Power

1N - Linear Momentum and Collisions

10. Impulse and Thrust

20. Conservation of Linear Momentum

21. Mass and Momentum Transfer

22. Rockets

30. Collisions on One Dimension

40. Collisions in Two Dimensions

1Q - Rotational Dynamics

10. Moment of Inertia

20. Rotational Energy

30. Transfer of Angular Momentum

40. Conservation of Angular Momentum

50. Gyros

60. Rotational Stability

1R - Properties of Matter

10. Hooke's Law

20. Tensile and Compressible Stress

30. Shear Stress

40. Coefficient of Restitution

50. Crystal Structure

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