I. Newton`s Laws of Motion
... An object at rest will remain at rest _________and an object in motion will continue moving at a constant velocity unless acted upon by a net _______. Force Inertia Also called the Law of _______. http://www.astro.ucla.edu/~colbert/cci.gif ...
... An object at rest will remain at rest _________and an object in motion will continue moving at a constant velocity unless acted upon by a net _______. Force Inertia Also called the Law of _______. http://www.astro.ucla.edu/~colbert/cci.gif ...
Integrated Physical Science: Semester 2 Exam Review
... 11. What is meant by the term equilibrium and what can an object in equilibrium be doing (2 things)? ...
... 11. What is meant by the term equilibrium and what can an object in equilibrium be doing (2 things)? ...
Force Equals Mass Times Acceleration
... measure force. In honor of Newton’s contribution to our understanding of force and motion, the standard unit of force is called the newton (N). Because force equals mass times acceleration, force is measured in units of mass (kilograms) times units of acceleration (meters per second per second). A n ...
... measure force. In honor of Newton’s contribution to our understanding of force and motion, the standard unit of force is called the newton (N). Because force equals mass times acceleration, force is measured in units of mass (kilograms) times units of acceleration (meters per second per second). A n ...
Notes-for-Force-and-Motion-Unit
... 1st Law of Motion: An object’s motion will not change unless it is acted on by unbalanced forces. Examples: a. A book will sit on your desk until a force moves it. b. If you’re standing in a moving bus, and the bus stops, you will continue to move forward. ...
... 1st Law of Motion: An object’s motion will not change unless it is acted on by unbalanced forces. Examples: a. A book will sit on your desk until a force moves it. b. If you’re standing in a moving bus, and the bus stops, you will continue to move forward. ...
Chapter 11 Test
... 1. Which of the following is not a factor in calculating momentum? a. mass c. acceleration b. direction d. speed 2. If you divide momentum by velocity, the result is the value of the object’s a. mass. c. energy. b. direction. d. speed. 3. Whenever an object is standing still, the value(s) that is/ar ...
... 1. Which of the following is not a factor in calculating momentum? a. mass c. acceleration b. direction d. speed 2. If you divide momentum by velocity, the result is the value of the object’s a. mass. c. energy. b. direction. d. speed. 3. Whenever an object is standing still, the value(s) that is/ar ...
waves - Edublogs @ Macomb ISD
... Because the earth is so large ALL objects are pulled towards it. Objects fall towards the earth at the same rate (acceleration). Acceleration due to gravity is 9.8 m/s2 for ALL objects. Air resistance slows down the speed of a falling object. Because the air particles have mass, they have Inertia. T ...
... Because the earth is so large ALL objects are pulled towards it. Objects fall towards the earth at the same rate (acceleration). Acceleration due to gravity is 9.8 m/s2 for ALL objects. Air resistance slows down the speed of a falling object. Because the air particles have mass, they have Inertia. T ...
NOTES Circular Motion
... Two forces act on a wheel, as shown below. The wheel is free to rotate without friction, has a radius of 0.42 m, and is initially at rest. Given that F1 = 12 N and F2 = 9.5 N, find (a) the torque caused by F1 and (b) the torque caused by F2. (c) In which direction does the wheel turn as a result of ...
... Two forces act on a wheel, as shown below. The wheel is free to rotate without friction, has a radius of 0.42 m, and is initially at rest. Given that F1 = 12 N and F2 = 9.5 N, find (a) the torque caused by F1 and (b) the torque caused by F2. (c) In which direction does the wheel turn as a result of ...
MollyHungEmilyROTMOT
... used for two different concepts. Centrifugal force is one of the fictitious forces that appears to act on an object when its motion is viewed from a rotating frame of reference. Magnitude of centripetal force is F=mv2/r. ...
... used for two different concepts. Centrifugal force is one of the fictitious forces that appears to act on an object when its motion is viewed from a rotating frame of reference. Magnitude of centripetal force is F=mv2/r. ...
Chap. 12 P.P - Moline High School
... when only gravity is acting on a falling object. constant rate of acceleration. This is called gravitational acceleration (g) * g = 9.8 m/s² - which means everything accelerates as it falls at the rate of 9.8 m/s² each second! ...
... when only gravity is acting on a falling object. constant rate of acceleration. This is called gravitational acceleration (g) * g = 9.8 m/s² - which means everything accelerates as it falls at the rate of 9.8 m/s² each second! ...
Chapter 4 Forces and Mass Classical Mechanics Newton’s First Law
... Electric forces bind electrons in atoms ...
... Electric forces bind electrons in atoms ...
Notes (fill in)
... C. Any conversions? none D. Formula; Math with units; Circle answer with units ...
... C. Any conversions? none D. Formula; Math with units; Circle answer with units ...
Forces and Motion
... Forces in Nature • Erosion is the process by which fragments of soil and rock are broken off from the ground (sediments) and are carried away. Eventually these fragments are deposited in a new place. • Water has the ability to cause erosion if it carries enough force and speed. The more force and s ...
... Forces in Nature • Erosion is the process by which fragments of soil and rock are broken off from the ground (sediments) and are carried away. Eventually these fragments are deposited in a new place. • Water has the ability to cause erosion if it carries enough force and speed. The more force and s ...
General Physics – ph 211
... Partial credit may be awarded for a correct method of solution, even if the answer is wrong. ...
... Partial credit may be awarded for a correct method of solution, even if the answer is wrong. ...