Mass wasting
... cohesion and friction which is directed perpendicular to the slope surface. Another way to state this is that, on a sloping surface, gravity has a GO component and a STAY component. The magnitude of the GO and Stay forces can be graphically presented by drawing a parallelogram where the force of gra ...
... cohesion and friction which is directed perpendicular to the slope surface. Another way to state this is that, on a sloping surface, gravity has a GO component and a STAY component. The magnitude of the GO and Stay forces can be graphically presented by drawing a parallelogram where the force of gra ...
forces
... Determine the object’s average speed over 5 hours from the distance-time graph below. ...
... Determine the object’s average speed over 5 hours from the distance-time graph below. ...
Slideshow
... If a force is applied to a moving object, the object can speed up, slow down or come to a stop. ...
... If a force is applied to a moving object, the object can speed up, slow down or come to a stop. ...
CPO Chapter 3 Notes
... acted upon by an unbalanced force. An object in motion will continue with constant speed and direction, unless acted upon by an unbalanced force. • Unless you apply a force, things tend to keep doing what they were already doing. ...
... acted upon by an unbalanced force. An object in motion will continue with constant speed and direction, unless acted upon by an unbalanced force. • Unless you apply a force, things tend to keep doing what they were already doing. ...
potential energy
... with a force of 20 N, how much work has he done? • 200 joules (W = 20N x 10m) ...
... with a force of 20 N, how much work has he done? • 200 joules (W = 20N x 10m) ...
Chapter 4 Making Sense of the Universe: Understanding Motion
... for acceleration cancels Mrock in the equation for gravitational force • This “coincidence” was not understood until Einstein’s general theory of relativity. ...
... for acceleration cancels Mrock in the equation for gravitational force • This “coincidence” was not understood until Einstein’s general theory of relativity. ...
MASSACHUSETTS INSTITUTE OF TECHNOLOGY
... The Sopwith Camel was a single engine fighter plan flown by the British in WWI (and also by the character Snoopy in the Peanuts comic strip). It was powered by a radial engine, and the entire engine rotated with the propeller. The Camel had an unfortunate property: if the pilot turned to the right, ...
... The Sopwith Camel was a single engine fighter plan flown by the British in WWI (and also by the character Snoopy in the Peanuts comic strip). It was powered by a radial engine, and the entire engine rotated with the propeller. The Camel had an unfortunate property: if the pilot turned to the right, ...
Chapter 9
... Elastic and inelastic collisions • During a collision, the total linear momentum is always conserved if the system is isolated (no external force) • It may not necessarily apply to the total kinetic energy • If the total kinetic energy is conserved during the collision, then such a collision is cal ...
... Elastic and inelastic collisions • During a collision, the total linear momentum is always conserved if the system is isolated (no external force) • It may not necessarily apply to the total kinetic energy • If the total kinetic energy is conserved during the collision, then such a collision is cal ...
Paper Reference(s)
... Full marks may be obtained for answers to ALL questions. This paper has seven questions. Advice to Candidates You must ensure that your answers to parts of questions are clearly labelled. You must show sufficient working to make your methods clear to the Examiner. Answers without working may gain no ...
... Full marks may be obtained for answers to ALL questions. This paper has seven questions. Advice to Candidates You must ensure that your answers to parts of questions are clearly labelled. You must show sufficient working to make your methods clear to the Examiner. Answers without working may gain no ...
5-9 & 5-10 - mrhsluniewskiscience
... describe the fundamental properties of physical reality. NEWTON’S THREE LAWS OF MOTION LAW #1: A body remains at rest or moves in a straight line at constant speed unless acted upon by a net outside force. LAW #2: The acceleration of an object is proportional to the force acting on it. LAW #3: Whene ...
... describe the fundamental properties of physical reality. NEWTON’S THREE LAWS OF MOTION LAW #1: A body remains at rest or moves in a straight line at constant speed unless acted upon by a net outside force. LAW #2: The acceleration of an object is proportional to the force acting on it. LAW #3: Whene ...
Unit 2a Force and Motion Study Guide Label the following with the
... a. an object in motion remains in motion unless acted upon by an unbalanced force. b. an object in motion eventually comes to a stop. c. objects in motion accelerate in a vacuum d. for every action, there is an equal and opposite reaction. 8. You are holding a 10 N medicine ball over your head. a. t ...
... a. an object in motion remains in motion unless acted upon by an unbalanced force. b. an object in motion eventually comes to a stop. c. objects in motion accelerate in a vacuum d. for every action, there is an equal and opposite reaction. 8. You are holding a 10 N medicine ball over your head. a. t ...
22Sept_2014
... • a. The ball bounces because the court floor pushes up on it every time it hits; • b. The floor experiences no acceleration due to the dribbling ball because its mass is so large compared to that of the ball. • c. The ball exerts a force on the player's hand each time the two connect; • d. The play ...
... • a. The ball bounces because the court floor pushes up on it every time it hits; • b. The floor experiences no acceleration due to the dribbling ball because its mass is so large compared to that of the ball. • c. The ball exerts a force on the player's hand each time the two connect; • d. The play ...
Learning objectives for Test 1, PY205H
... miles, km, etc., into the same quantity in another set of units. 1.6: Show that you can perform rapid order-of-magnitude estimates 1.7: Perform dimensional analysis to ensure consistency among equations and among different terms in a given equation. Chapter 2: Describing motion: kinematics in one di ...
... miles, km, etc., into the same quantity in another set of units. 1.6: Show that you can perform rapid order-of-magnitude estimates 1.7: Perform dimensional analysis to ensure consistency among equations and among different terms in a given equation. Chapter 2: Describing motion: kinematics in one di ...