Transparancies for Dynamics - University of Manchester
... e.g. Alice walks forwards along a boat at 1m/s and the boat moves at 2 m/s. what is Alices’ velocity as seen by Bob ? • If Bob is on the boat it is just 1 m/s • If Bob is on the shore it is 1+2=3m/s • If Bob is on a boat passing in the opposite direction….. and the earth is spinning… ...
... e.g. Alice walks forwards along a boat at 1m/s and the boat moves at 2 m/s. what is Alices’ velocity as seen by Bob ? • If Bob is on the boat it is just 1 m/s • If Bob is on the shore it is 1+2=3m/s • If Bob is on a boat passing in the opposite direction….. and the earth is spinning… ...
Angular Motion
... Torque is the “twisting force” that causes rotational motion. It is equal to the magnitude of the component of an applied force perpendicular to the arm transmitting the force. F ...
... Torque is the “twisting force” that causes rotational motion. It is equal to the magnitude of the component of an applied force perpendicular to the arm transmitting the force. F ...
Lecture-04-09
... Dropping the Ball III A projectile is launched from the ground at an angle of 30°. At what point in its trajectory does this projectile have the least ...
... Dropping the Ball III A projectile is launched from the ground at an angle of 30°. At what point in its trajectory does this projectile have the least ...
Acceleration
... Lab • One, some, or all of the following labs will be performed from IPC Manual – How is the speed of the car changing? (p. 14 & 15) – What is the relationship between force, mass, and acceleration? (p. 16 – 19) – How does increasing the mass of the car affect its acceleration? (p. 20 – 21) • Perio ...
... Lab • One, some, or all of the following labs will be performed from IPC Manual – How is the speed of the car changing? (p. 14 & 15) – What is the relationship between force, mass, and acceleration? (p. 16 – 19) – How does increasing the mass of the car affect its acceleration? (p. 20 – 21) • Perio ...
simple harmonic motion - IndiaStudyChannel.com
... A pendulum clock runs slow when 1) L increases and 2) g decreases. A pendulum clock runs fast when 1) L decreases and 2) g increases. Time period of a pendulum clock depends on g where as time period of a spring clock does not depnds on g. The spring constant of a spring may be defined as th ...
... A pendulum clock runs slow when 1) L increases and 2) g decreases. A pendulum clock runs fast when 1) L decreases and 2) g increases. Time period of a pendulum clock depends on g where as time period of a spring clock does not depnds on g. The spring constant of a spring may be defined as th ...
Forces & Newton’s Laws of Motion
... proportional to the NET external force acting on the object and inversely proportional to its mass. Acceleration = Net Force F ...
... proportional to the NET external force acting on the object and inversely proportional to its mass. Acceleration = Net Force F ...
P4: Explaining Motion
... Energy input will equal the energy output BUT the gain in kinetic energy of an object will be less than the work done on the object because of the forces of friction and ...
... Energy input will equal the energy output BUT the gain in kinetic energy of an object will be less than the work done on the object because of the forces of friction and ...
Dynamics Problems Set2 Solutions
... 9. A train is pulling two cars of the same mass behind it. Determine the ratio of the tension in the coupling between the locomotive and the first car (FT1), to that between the first car and the second car (FT2), for any non-zero acceleration of the train (assume no friction between the cars and th ...
... 9. A train is pulling two cars of the same mass behind it. Determine the ratio of the tension in the coupling between the locomotive and the first car (FT1), to that between the first car and the second car (FT2), for any non-zero acceleration of the train (assume no friction between the cars and th ...
Newton`s Third Law 6.3 Newton`s Third Law
... Describe action-reaction force pairs. Explain what happens when objects collide in terms of Newton’s third law. Apply the law of conservation of momentum when describing the motion of colliding objects. ...
... Describe action-reaction force pairs. Explain what happens when objects collide in terms of Newton’s third law. Apply the law of conservation of momentum when describing the motion of colliding objects. ...
Force and Motion PPT
... • It would take more force to move an elephant than it would to move a mouse ...
... • It would take more force to move an elephant than it would to move a mouse ...
Slide 1 - A.P. Physics 1
... 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 permitted. The work and materials from it should never be made available to students exc ...
... 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 permitted. The work and materials from it should never be made available to students exc ...
AP Physics Semester 1 Review Use the graph to the right to answer
... and accurate (b) precise but not accurate (c) accurate but not precise (d) neither precise nor accurate. b 50. For an object in projectile motion, which quantity of the motion remains constant during the flight: displacement, velocity, acceleration, speed, position? acceleration 51. In order to prod ...
... and accurate (b) precise but not accurate (c) accurate but not precise (d) neither precise nor accurate. b 50. For an object in projectile motion, which quantity of the motion remains constant during the flight: displacement, velocity, acceleration, speed, position? acceleration 51. In order to prod ...
L2 Slides - University of Brighton
... Force is a quantitative description of the interaction between two physical bodies, such as an object and its environment. Force is proportional to acceleration. In calculus terms, force is the derivative of momentum with respect to time. ...
... Force is a quantitative description of the interaction between two physical bodies, such as an object and its environment. Force is proportional to acceleration. In calculus terms, force is the derivative of momentum with respect to time. ...
Force and Motion
... Weight is a measure of gravitational force on an object…Use weight scales to measure Mass is the measure of matter in an object ... Use balance scales (TBB) to measure ...
... Weight is a measure of gravitational force on an object…Use weight scales to measure Mass is the measure of matter in an object ... Use balance scales (TBB) to measure ...
Phy221 E1Review
... e. Given an equation describing the motion of an object, utilize differentiation and/or integration to represent the other kinematic variables as functions of time. 4. Kinematics in multiple dimensions: Analyze and represent. a. Find the vector representation of an object’s position, velocity, and a ...
... e. Given an equation describing the motion of an object, utilize differentiation and/or integration to represent the other kinematic variables as functions of time. 4. Kinematics in multiple dimensions: Analyze and represent. a. Find the vector representation of an object’s position, velocity, and a ...
The Coriolis force acts perpendicular to the
... isobars. The low pressure gets filled instead of getting intensified. That is the reason why tropical cyclones are not formed near the equator. Pressure and Wind The velocity and direction of the wind are the net result of the wind generating forces. The winds in the upper atmosphere, 2 - 3 km above ...
... isobars. The low pressure gets filled instead of getting intensified. That is the reason why tropical cyclones are not formed near the equator. Pressure and Wind The velocity and direction of the wind are the net result of the wind generating forces. The winds in the upper atmosphere, 2 - 3 km above ...
