SPH4U: Lecture 5 Notes
... More discussion of dynamics Recap Equivalence principle (inertial vs gravitational mass) The Free Body Diagram The tools we have for making & solving problems: Ropes & Pulleys (tension) Hooke’s Law (springs) ...
... More discussion of dynamics Recap Equivalence principle (inertial vs gravitational mass) The Free Body Diagram The tools we have for making & solving problems: Ropes & Pulleys (tension) Hooke’s Law (springs) ...
Rotational Motion Test Review
... 13. A comet orbiting the Sun can be considered an isolated system with no outside forces or torques acting on it. As the comet moves in its highly elliptical orbit, what remains constant? A. Its distant from the Sun B. Its angular speed C. Its linear speed D. Its angular momentum E. The gravitationa ...
... 13. A comet orbiting the Sun can be considered an isolated system with no outside forces or torques acting on it. As the comet moves in its highly elliptical orbit, what remains constant? A. Its distant from the Sun B. Its angular speed C. Its linear speed D. Its angular momentum E. The gravitationa ...
Force Practice Problems
... 13. Calculate the horizontal force that must be applied to a 1kg puck to make it accelerate on a horizontal friction-free table with the same acceleration it would have if it were dropped and fell freely. ...
... 13. Calculate the horizontal force that must be applied to a 1kg puck to make it accelerate on a horizontal friction-free table with the same acceleration it would have if it were dropped and fell freely. ...
Action / Reaction forces
... moves the way it doeswhy it starts to move instead of remaining at rest, why it speeds up or moves on a curved path, and why it comes to a stop. Newton’s most famous book was “Principia”, published in 1687. This book first listed what came to be known as Newton’s Three Laws of Motion ...
... moves the way it doeswhy it starts to move instead of remaining at rest, why it speeds up or moves on a curved path, and why it comes to a stop. Newton’s most famous book was “Principia”, published in 1687. This book first listed what came to be known as Newton’s Three Laws of Motion ...
Exponential Maps for Computer Vision
... of the problem is possible when rigid body transformations are considered. The reason for this is that such transformations preserve the distance between any two points. This allows tracking an object by a single transformation of its coordinate frame. It is necessary to prevent reflections in the t ...
... of the problem is possible when rigid body transformations are considered. The reason for this is that such transformations preserve the distance between any two points. This allows tracking an object by a single transformation of its coordinate frame. It is necessary to prevent reflections in the t ...
Forces - Mandan Public School District
... Gravitational acceleration Velocity of a freefalling object can be found with the ...
... Gravitational acceleration Velocity of a freefalling object can be found with the ...
slides - School of Computer Science
... • What do we learn about the system? – Geometry • pre-selected set of normals • learn their offsets, define a convex hull ...
... • What do we learn about the system? – Geometry • pre-selected set of normals • learn their offsets, define a convex hull ...
Jeopardy
... accidentally drifts away from it. Luckily, she is attached to the shuttle by a 200 meter long cord. The cord brings her to a stop 200 meters from the shuttle. The astronaut starts from rest and then moves to the shuttle in 15 seconds. Draw the force diagram ...
... accidentally drifts away from it. Luckily, she is attached to the shuttle by a 200 meter long cord. The cord brings her to a stop 200 meters from the shuttle. The astronaut starts from rest and then moves to the shuttle in 15 seconds. Draw the force diagram ...
force-problems-old
... he exert on the floor of the elevator? 3. A child has a mass of 50 kg. With how much force is he attracted to the earth? If he falls from a cliff, what will his downward acceleration be? 4. A crane is lifting a 25 kg crate with a force of 300 N. Find the acceleration of the crate. 5. An 80 kg parach ...
... he exert on the floor of the elevator? 3. A child has a mass of 50 kg. With how much force is he attracted to the earth? If he falls from a cliff, what will his downward acceleration be? 4. A crane is lifting a 25 kg crate with a force of 300 N. Find the acceleration of the crate. 5. An 80 kg parach ...
No Slide Title
... wagon stops? (Hint: Consider what it takes to change the velocity of the wagon and the marble.) ...
... wagon stops? (Hint: Consider what it takes to change the velocity of the wagon and the marble.) ...
Ch 4: Newton`s Laws Demo time: Do you remember your Newton`s
... things remaining equal, you will accelerate it three times as much. Thus, force is morr accurately proportional to acceleration. Q: Is F always in the same direction as a? A much better interpretation is: ...
... things remaining equal, you will accelerate it three times as much. Thus, force is morr accurately proportional to acceleration. Q: Is F always in the same direction as a? A much better interpretation is: ...
1. The apparent weight of an object increases in an elevator while
... velocity. If the angle of incline is tan– 1 (a /g), the string again makes the same angle with the normal to the ceiling. Can a person sitting inside the compartment tell by looking at the plumb line whether the train is accelerated on a horizontal straight track or it is going on an incline? If yes ...
... velocity. If the angle of incline is tan– 1 (a /g), the string again makes the same angle with the normal to the ceiling. Can a person sitting inside the compartment tell by looking at the plumb line whether the train is accelerated on a horizontal straight track or it is going on an incline? If yes ...
P2 Knowledge Powerpoint – WIP Part 1
... change of momentum and reducing injury 2. Air bags – inflate to increase the time taken to stop, thus reducing the rate of change of momentum and reducing injury 3. Crumple Zones – crumple and fold in a specific way to increase the time taken to stop, thus reducing the rate of change of momentum and ...
... change of momentum and reducing injury 2. Air bags – inflate to increase the time taken to stop, thus reducing the rate of change of momentum and reducing injury 3. Crumple Zones – crumple and fold in a specific way to increase the time taken to stop, thus reducing the rate of change of momentum and ...
