Chapter 6 - TeacherWeb
... Terminal Velocity: Because the air resistance _______________ as an object’s speed _________________, eventually the _______________ force of air resistance will equal the __________________ force of gravity and the acceleration will be ___________. The object will then fall at _______________ velo ...
... Terminal Velocity: Because the air resistance _______________ as an object’s speed _________________, eventually the _______________ force of air resistance will equal the __________________ force of gravity and the acceleration will be ___________. The object will then fall at _______________ velo ...
Physical Science Chapter 2
... air resistance acts in opposite direction Terminal Velocity- when Gravity and air resistance cancel each other out (velocity of falling body becomes constant) Skydiving and falcons Forces Montage ...
... air resistance acts in opposite direction Terminal Velocity- when Gravity and air resistance cancel each other out (velocity of falling body becomes constant) Skydiving and falcons Forces Montage ...
force=mass times acceleration
... 20. Newton's First Law of Motion: Law of Inertia: An object at rest will remain at rest unless an unbalanced force acts upon the object. An object in motion will remain in motion at the same speed and direction unless an unbalanced force acts upon the object. 21. Newton's Second Law of Motion: The a ...
... 20. Newton's First Law of Motion: Law of Inertia: An object at rest will remain at rest unless an unbalanced force acts upon the object. An object in motion will remain in motion at the same speed and direction unless an unbalanced force acts upon the object. 21. Newton's Second Law of Motion: The a ...
19. Centripetal Force
... with a string, the tension in the string equals the ____________ force experienced by the object. An object's ____________, mass, and ____________ of rotation all contribute to the magnitude of the centripetal force. Newton’s ____________ law holds true for rotational motion in that the centripetal ...
... with a string, the tension in the string equals the ____________ force experienced by the object. An object's ____________, mass, and ____________ of rotation all contribute to the magnitude of the centripetal force. Newton’s ____________ law holds true for rotational motion in that the centripetal ...
Rotation Torque, Rolling, & Angular Momentum
... perpendicular to the baton and goes through it’s center. It spins at 3*pi rad-per-sec. He lets go of it quickly, without getting in its way or altering its rotation. He then quickly grabs the end of it and spins the baton about a new axis that is parallel to the old one, but that goes through the ro ...
... perpendicular to the baton and goes through it’s center. It spins at 3*pi rad-per-sec. He lets go of it quickly, without getting in its way or altering its rotation. He then quickly grabs the end of it and spins the baton about a new axis that is parallel to the old one, but that goes through the ro ...
Circular Motion Review
... The diagram below shows the elliptical orbit of a comet around the Sun. The magnitude of the centripetal acceleration of the comet is greatest at point ...
... The diagram below shows the elliptical orbit of a comet around the Sun. The magnitude of the centripetal acceleration of the comet is greatest at point ...
Slide 1
... different and we can quote the acceleration as the Force per kilogram or N/kg instead of m/s2. In fact both are the same; ...
... different and we can quote the acceleration as the Force per kilogram or N/kg instead of m/s2. In fact both are the same; ...
Unit I: Concept Enhancer
... cart accelerated again, but the rate at which the speed changed was increased (you got to a high velocity faster) or you could say you had a greater acceleration. You knew this by the way your feet had to move faster and faster so that you could keep the force constant. So force is directly related ...
... cart accelerated again, but the rate at which the speed changed was increased (you got to a high velocity faster) or you could say you had a greater acceleration. You knew this by the way your feet had to move faster and faster so that you could keep the force constant. So force is directly related ...
NNHS Introductory Physics: Midyear Review
... 17.) The tendency of a stationary object to resist being 18.) Which of the following objects has the most inertia? put into motion is known as A. a 1 kg hamster A. acceleration. B. a 2 kg rock B. inertia. C. a 4kg box of books C. weight. D. a 5kg balloon in the Macy’s parade. D. velocity. Standard 1 ...
... 17.) The tendency of a stationary object to resist being 18.) Which of the following objects has the most inertia? put into motion is known as A. a 1 kg hamster A. acceleration. B. a 2 kg rock B. inertia. C. a 4kg box of books C. weight. D. a 5kg balloon in the Macy’s parade. D. velocity. Standard 1 ...
ConcepTest 4.1a Newton`s First Law I 1) there is a net force but the
... ConcepTest 4.6 Force and Two Masses A force F acts on mass m1 giving acceleration a1. The same force acts on a different mass m2 giving acceleration a2 = 2a1. If m1 and m2 are glued together and the same force F acts on this combination, what is the resulting acceleration? ...
... ConcepTest 4.6 Force and Two Masses A force F acts on mass m1 giving acceleration a1. The same force acts on a different mass m2 giving acceleration a2 = 2a1. If m1 and m2 are glued together and the same force F acts on this combination, what is the resulting acceleration? ...
Fall 2005 MC Final Review
... Page 9 38. What is the boat's displacement for the one-hour trip? A) 20 km B) 100 km C) 140 km D) 280 km E) 10 000 km 39. A ball is fired at an angle of 45°, the angle that yields the maximum range in the absence of air resistance. What is the ratio of the ball's maximum height to its range? A) 1.0 ...
... Page 9 38. What is the boat's displacement for the one-hour trip? A) 20 km B) 100 km C) 140 km D) 280 km E) 10 000 km 39. A ball is fired at an angle of 45°, the angle that yields the maximum range in the absence of air resistance. What is the ratio of the ball's maximum height to its range? A) 1.0 ...
Powerpoint revew chap4 no solutions
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... This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their courses and assessing student learning. Dissemination or sale of any part of this work (including on the World Wide Web) will destroy the integrity of the work and is not permit ...
Word
... 2. A 3 kg mass is accelerated by a 6 Newton force. Both the mass and force are increased by 3 units (i.e., a 6 kg mass experiences a force of 9 Newtons). The experiment is repeated and the acceleration of the mass is calculated. a. Is the calculated acceleration in the second case different from th ...
... 2. A 3 kg mass is accelerated by a 6 Newton force. Both the mass and force are increased by 3 units (i.e., a 6 kg mass experiences a force of 9 Newtons). The experiment is repeated and the acceleration of the mass is calculated. a. Is the calculated acceleration in the second case different from th ...