Chapter 6 Notes Circular Motion and Gravity
... uniform circular motion: the motion of an object that moves in a circle at constant speed. Why doesn't the definition say "constant velocity?" the velocity of an object in circular motion continually changes in direction, although its magnitude may remain constant. ...
... uniform circular motion: the motion of an object that moves in a circle at constant speed. Why doesn't the definition say "constant velocity?" the velocity of an object in circular motion continually changes in direction, although its magnitude may remain constant. ...
PPTX - University of Toronto Physics
... • This test will count for 15% of your mark in the course • There will be no make-up for this test. Students who miss a test for legitimate and documented reasons will have the weight of the test transferred to the other test which will then count for 30% of their course mark • You must go to the co ...
... • This test will count for 15% of your mark in the course • There will be no make-up for this test. Students who miss a test for legitimate and documented reasons will have the weight of the test transferred to the other test which will then count for 30% of their course mark • You must go to the co ...
Wksht Momentum and Collisions
... 8) A snow-scooter has a mass of 250 kg and is traveling east at a speed of 8 m/s. A force acts upon it to the east, as shown in the graph below. ...
... 8) A snow-scooter has a mass of 250 kg and is traveling east at a speed of 8 m/s. A force acts upon it to the east, as shown in the graph below. ...
Integrated Physical Science: Semester 2 Exam Review
... A person walks away from the origin at a constant speed for 2 seconds, stands still for 1 second, and then walks at a faster constant speed back toward the origin at a faster constant speed for 2 ...
... A person walks away from the origin at a constant speed for 2 seconds, stands still for 1 second, and then walks at a faster constant speed back toward the origin at a faster constant speed for 2 ...
78AM-1
... 5. A rod of length L and mass M is pivoted at one end to constitute a pendulum. Determine its period of oscillation and calculate its length if the period is desired to be 1 second. If the rod was instead suspended from a point at one quarter of its length, what would be the expression for the peri ...
... 5. A rod of length L and mass M is pivoted at one end to constitute a pendulum. Determine its period of oscillation and calculate its length if the period is desired to be 1 second. If the rod was instead suspended from a point at one quarter of its length, what would be the expression for the peri ...
Vocabulary Chapter 2.1-2.5: Newton`s First Law of Motion
... Chapter 2.1-2.5: Newton’s First Law of Motion- The Law of Inertia Read the following passage carefully and use context clues to determine the meaning of the underlined words. In the early 1500s the Italian scientist Galileo demolished a long accepted belief by Aristotle that heavy things fall faster ...
... Chapter 2.1-2.5: Newton’s First Law of Motion- The Law of Inertia Read the following passage carefully and use context clues to determine the meaning of the underlined words. In the early 1500s the Italian scientist Galileo demolished a long accepted belief by Aristotle that heavy things fall faster ...
Document
... – In a vacuum, maximum distance is at an angle of 45o – With air resistance (real world), angle is less • Baseball will go furthest hit at an angle of around 40o ...
... – In a vacuum, maximum distance is at an angle of 45o – With air resistance (real world), angle is less • Baseball will go furthest hit at an angle of around 40o ...
Circular Motion
... undergoes circular motion. • The line about which the rotation occurs is called the axis of rotation. • In this case, it is a line perpendicular to the side of the Ferris wheel and passing through the wheel’s center. ...
... undergoes circular motion. • The line about which the rotation occurs is called the axis of rotation. • In this case, it is a line perpendicular to the side of the Ferris wheel and passing through the wheel’s center. ...
Force = mass x acceleration
... 3. What is the mass of a female Sumo Wrestler that weighs 750N? Fg=mg a. 7,350kg b. 76.5kg c. 765g d. 73.5g 4. If there is no net force on an object, it will a. not change motion b. change motion c. move ...
... 3. What is the mass of a female Sumo Wrestler that weighs 750N? Fg=mg a. 7,350kg b. 76.5kg c. 765g d. 73.5g 4. If there is no net force on an object, it will a. not change motion b. change motion c. move ...
Newton`s 2nd Law
... forces when problem solving. • Newton’s 2nd Law of Motion states that the rate of acceleration of an object is to the applied and to ...
... forces when problem solving. • Newton’s 2nd Law of Motion states that the rate of acceleration of an object is to the applied and to ...
Chapter 2 Summary
... • This is the distance traveled per unit of time • Speed is a scalar quantity ...
... • This is the distance traveled per unit of time • Speed is a scalar quantity ...
Momentum - curtehrenstrom.com
... • changing momentum depends upon changing either mass or velocity • the train is harder to stop than the car because its larger mass means a greater change in momentum • a bullet has a tremendous impact because its change in speed upon impact is extremely large- hence a large change in momentum ...
... • changing momentum depends upon changing either mass or velocity • the train is harder to stop than the car because its larger mass means a greater change in momentum • a bullet has a tremendous impact because its change in speed upon impact is extremely large- hence a large change in momentum ...
Topics 1, 2, 3, 4, 9 selected problems paper 1 take
... A truck collides head on with a less massive car moving in the opposite direction to the truck. During the collision, the average force exerted by the truck on the car is FT and the average force exerted by the car on the truck is FC. Which one of the following statements is correct? A. ...
... A truck collides head on with a less massive car moving in the opposite direction to the truck. During the collision, the average force exerted by the truck on the car is FT and the average force exerted by the car on the truck is FC. Which one of the following statements is correct? A. ...
rotational kinetic energy
... platform begin to rotate if the man moves from the edge to the centre? (a) 22 rpm ...
... platform begin to rotate if the man moves from the edge to the centre? (a) 22 rpm ...