Semester 1 Final Exam Review
... You may use your NOTES on your final exam. I recommend using your notes while you complete this review, and add things to your notes that may be missing. You may not use this review itself on the final exam, or other assignments, only what’s in your notes. The problems are pretty much in the order w ...
... You may use your NOTES on your final exam. I recommend using your notes while you complete this review, and add things to your notes that may be missing. You may not use this review itself on the final exam, or other assignments, only what’s in your notes. The problems are pretty much in the order w ...
Momentum Notes
... force exerted on an object and the time interval over which the force acts. F•t = impulse (I) Impulses are measured in N•s ...
... force exerted on an object and the time interval over which the force acts. F•t = impulse (I) Impulses are measured in N•s ...
Uniform Circular Motion
... For an object in UCM, what direction is the net force? The same direction as the acceleration – toward the center Fc = mac If you stop the acceleration, what direction will the object move? The movement of the object is in the direction of the velocity or tangent to the circle. ...
... For an object in UCM, what direction is the net force? The same direction as the acceleration – toward the center Fc = mac If you stop the acceleration, what direction will the object move? The movement of the object is in the direction of the velocity or tangent to the circle. ...
Content Area: Newtonian Mechanics Unit: 5 Topic (s): Circular
... 1. Compare and contrast circular acceleration with linear acceleration 2. Adapt the concept of a net (or unbalanced) linear force (as defined by Newton’s Second Law of Motion) for use with net circular (centripetal) force 3. Identify the contributing factors for Universal Gravitation 4. Combine conc ...
... 1. Compare and contrast circular acceleration with linear acceleration 2. Adapt the concept of a net (or unbalanced) linear force (as defined by Newton’s Second Law of Motion) for use with net circular (centripetal) force 3. Identify the contributing factors for Universal Gravitation 4. Combine conc ...
Newton`s Second Law for Rotation Newton`s First Law for Rotation
... Re-analyzing the Atwood’s machine When we analyzed Atwood’s machine earlier, we found an expression for the acceleration of the weights in terms of m, M, and g, but we neglected the mass of the pulley (i.e., we assumed that the pulley is massless). If we include the mass of the pulley in the analysi ...
... Re-analyzing the Atwood’s machine When we analyzed Atwood’s machine earlier, we found an expression for the acceleration of the weights in terms of m, M, and g, but we neglected the mass of the pulley (i.e., we assumed that the pulley is massless). If we include the mass of the pulley in the analysi ...
File
... But when an object rolls, it takes some of its NRG just to spin (KErot), so then there’s not as much left to move it down the plane (KElin) PEtop = KEroll at bottom = KErot at bot + KElin at bot But how much of each KErot & KElin does it have? It depends on object’s rotational inertia (I) which depe ...
... But when an object rolls, it takes some of its NRG just to spin (KErot), so then there’s not as much left to move it down the plane (KElin) PEtop = KEroll at bottom = KErot at bot + KElin at bot But how much of each KErot & KElin does it have? It depends on object’s rotational inertia (I) which depe ...
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... 11. What happens to an object when there is a balanced force applied? ...
... 11. What happens to an object when there is a balanced force applied? ...