Vectors [1
... • Both balls begin with no _______________________ • Both fall the same ____________________________ • Find time of flight by solving in either vertical or horizontal dimension. • We can find an object’s displacement in either dimension using ________________________________ ...
... • Both balls begin with no _______________________ • Both fall the same ____________________________ • Find time of flight by solving in either vertical or horizontal dimension. • We can find an object’s displacement in either dimension using ________________________________ ...
An intro to forces
... 1. For small masses, the ELASTIC force a rubber band exerts is related to how much to rubber band stretches and then returns to the original shape. Elastic forces are related to objects like rubber bands and other materials that stretch easily when acted on by a force. The tension force is the force ...
... 1. For small masses, the ELASTIC force a rubber band exerts is related to how much to rubber band stretches and then returns to the original shape. Elastic forces are related to objects like rubber bands and other materials that stretch easily when acted on by a force. The tension force is the force ...
Newton`s Second Law
... direction of the net force on the ball also must be toward the center of the curved path. • The net force exerted toward the center of a curved path is called a centripetal force. ...
... direction of the net force on the ball also must be toward the center of the curved path. • The net force exerted toward the center of a curved path is called a centripetal force. ...
Understand Newton`s Laws of Motion and the Concept of Force
... interaction with another object. Forces result from interactions! Some forces result from contact interactions (normal, frictional, tensional, and applied forces are examples of contact forces) and other forces are the result of action-at-a-distance interactions (gravitational, electrical, and magne ...
... interaction with another object. Forces result from interactions! Some forces result from contact interactions (normal, frictional, tensional, and applied forces are examples of contact forces) and other forces are the result of action-at-a-distance interactions (gravitational, electrical, and magne ...
Unit 5 Powerpoint
... Any reference frame that moves with constant velocity relative to an inertial frame is itself an inertial frame A reference frame that moves with constant velocity relative to the distant stars is the best approximation of an inertial frame ...
... Any reference frame that moves with constant velocity relative to an inertial frame is itself an inertial frame A reference frame that moves with constant velocity relative to the distant stars is the best approximation of an inertial frame ...
Moment of Inertia - Ryerson Department of Physics
... flywheel. The force exerted by the falling mass is related to the torque, Γ, and the rate of change of angular velocity of the wheel, that is, the angular acceleration, α. The moment of inertia, I, is the constant of proportionality between these two variables and depends on the mass and effective r ...
... flywheel. The force exerted by the falling mass is related to the torque, Γ, and the rate of change of angular velocity of the wheel, that is, the angular acceleration, α. The moment of inertia, I, is the constant of proportionality between these two variables and depends on the mass and effective r ...
OBJECTIVES PRE-LECTURE 2-1
... Near the earth's surface, g = 9.8 m.s-2. Uniform circular motion Consider an object moving in a circle with constant speed v. The total force in this case is called centripetal force. It follows from the equation of motion (F = ma ) and the formula for centripetal acceleration (v2 /R), which is towa ...
... Near the earth's surface, g = 9.8 m.s-2. Uniform circular motion Consider an object moving in a circle with constant speed v. The total force in this case is called centripetal force. It follows from the equation of motion (F = ma ) and the formula for centripetal acceleration (v2 /R), which is towa ...
A block of mesa 4 kilograms, which has an initial speed of 6 meters
... plates P1 and P2. The electron then passes into a region of uniform magnetic field strength B which exists everywhere to the right of plate P2. The magnetic field is directed into the page. a. On the diagram above, clearly indicate the direction of the electric field between the plates. b. In terms ...
... plates P1 and P2. The electron then passes into a region of uniform magnetic field strength B which exists everywhere to the right of plate P2. The magnetic field is directed into the page. a. On the diagram above, clearly indicate the direction of the electric field between the plates. b. In terms ...
IB_questions_Work_energy_power
... current in the motor is 1.5 A. Assuming no energy losses, the best estimate for the maximum steady speed at which the weight can be raised is A. ...
... current in the motor is 1.5 A. Assuming no energy losses, the best estimate for the maximum steady speed at which the weight can be raised is A. ...