AP C UNIT 4 - student handout
... That is, for the cross of two vectors, A and B, we place A and B so that their tails are at a common point (tail to tail). Their cross product, A x B, gives a third vector, C, whose tail is also at the same point as those of A and B. The vector C points in a direction perpendicular (or normal) to bo ...
... That is, for the cross of two vectors, A and B, we place A and B so that their tails are at a common point (tail to tail). Their cross product, A x B, gives a third vector, C, whose tail is also at the same point as those of A and B. The vector C points in a direction perpendicular (or normal) to bo ...
Force - Doral Academy Preparatory
... W=mxg same equation as F = m x a Changes depending on the gravitational force ...
... W=mxg same equation as F = m x a Changes depending on the gravitational force ...
dimensions
... working. Since we have no access to electricity or other forms of energy generation, we use gravitational potential energy to keep the ride working. Since the GPE transfers into KE as the ball moves down the slope and energy is conserved, the marble continues to move. Acceleration is completely due ...
... working. Since we have no access to electricity or other forms of energy generation, we use gravitational potential energy to keep the ride working. Since the GPE transfers into KE as the ball moves down the slope and energy is conserved, the marble continues to move. Acceleration is completely due ...
Worksheet 8.1
... plane, angled at 45 to the horizontal, by a string which is parallel to the plane. Draw a vector force diagram showing the forces acting on the mass. Find the magnitude of the resultant force, R~ . ...
... plane, angled at 45 to the horizontal, by a string which is parallel to the plane. Draw a vector force diagram showing the forces acting on the mass. Find the magnitude of the resultant force, R~ . ...
Reflection and Transmission
... Reflection and Transmission What force must be applied at end of a string to launch a pulse? ...
... Reflection and Transmission What force must be applied at end of a string to launch a pulse? ...
Homework 6
... (I) Alpha particles of charge q 2e and mass m 6.6 1027 kg are emitted from a radioactive source at a speed of 1.6 107 m s . What magnetic field strength would be required to bend them into a circular path of radius r 0.25 m? Solution The magnetic force is perpendicular to the velocity. In ...
... (I) Alpha particles of charge q 2e and mass m 6.6 1027 kg are emitted from a radioactive source at a speed of 1.6 107 m s . What magnetic field strength would be required to bend them into a circular path of radius r 0.25 m? Solution The magnetic force is perpendicular to the velocity. In ...
MYP FORM 3 term 1 term 2
... Recognize that a force may produce a change in size and shape of a body Describe the experimental procedure that occurs, in terms of the extension produced when load is added and plot extension/load graphs. Explain and interpret extension/load graphs Explain Hooke’s Law and recall and use the ex ...
... Recognize that a force may produce a change in size and shape of a body Describe the experimental procedure that occurs, in terms of the extension produced when load is added and plot extension/load graphs. Explain and interpret extension/load graphs Explain Hooke’s Law and recall and use the ex ...
Exploring Motion Introduction
... construct a paper airplane and toss it (apply a force) into the air. However, it is only the initial force from our arms that gives the paper plane motion. Soon it is slowed down by gravitational as well as frictional forces and comes crashing to the ground. There are four forces that act upon and c ...
... construct a paper airplane and toss it (apply a force) into the air. However, it is only the initial force from our arms that gives the paper plane motion. Soon it is slowed down by gravitational as well as frictional forces and comes crashing to the ground. There are four forces that act upon and c ...
7.1 Circular Motion
... Circular velocity is always a tangent to the circle of motion but circular acceleration is always directed towards the centre of the circle of motion. When its accelerating force is removed, an object flies off at a tangent to its former motion. ...
... Circular velocity is always a tangent to the circle of motion but circular acceleration is always directed towards the centre of the circle of motion. When its accelerating force is removed, an object flies off at a tangent to its former motion. ...
Force – Acceleration and Velocity
... 5. Compare the first ball to the second ball. How did the different force fields affect the ball's acceleration? Answers will vary. Sample Answer: The first ball moved faster than the second ball. Th ...
... 5. Compare the first ball to the second ball. How did the different force fields affect the ball's acceleration? Answers will vary. Sample Answer: The first ball moved faster than the second ball. Th ...
Unit 5 Notes: Forces
... Friction is always __________________________________ to the surfaces and _____________________________ to the normal force. To calculate the force of friction: ...
... Friction is always __________________________________ to the surfaces and _____________________________ to the normal force. To calculate the force of friction: ...
Topic 2 Mechanics Part 3 and 4 projectile, friction,10
... (a) involves the time it takes the ball to fall vertically, analogous to a ball dropped from that height. Thls time is also the time the ball travels in the horizontal direction .The horizontal speed is constant ,so we can find the horizontal distance, requested in part (b). Solution. Writing the da ...
... (a) involves the time it takes the ball to fall vertically, analogous to a ball dropped from that height. Thls time is also the time the ball travels in the horizontal direction .The horizontal speed is constant ,so we can find the horizontal distance, requested in part (b). Solution. Writing the da ...
