Reference: Website: http://www.physicsclassroom.com Unit
... Describe and calculate the electric field produced by a single point charge at a given location Calculate the magnitude and direction of a force on a positive or negative charge placed in a specified field Interpret an electric field diagram Analyze the motion of a particle of specified charge and m ...
... Describe and calculate the electric field produced by a single point charge at a given location Calculate the magnitude and direction of a force on a positive or negative charge placed in a specified field Interpret an electric field diagram Analyze the motion of a particle of specified charge and m ...
Forces Of Motion - Southgate Community School District
... acting on a body • We write: ∑Fnet = Fw + -FN + …. (Eq.4) • For Ch2, 1D only • When ∑Fnet = 0, (Eq.4) or when all forces on a body cancel each other, the body is in EQUILIBRIUM • 2 Types of Equilibrium: 1. Static Equilibrium (object is not moving) 2. Dynamic Equilibrium (object is moving at constant ...
... acting on a body • We write: ∑Fnet = Fw + -FN + …. (Eq.4) • For Ch2, 1D only • When ∑Fnet = 0, (Eq.4) or when all forces on a body cancel each other, the body is in EQUILIBRIUM • 2 Types of Equilibrium: 1. Static Equilibrium (object is not moving) 2. Dynamic Equilibrium (object is moving at constant ...
here
... Relative atomic, isotopic, molecular and formula masses, based on the 12C scale. (Ar and M r). The term relative formula mass or Mr will be used for ionic compounds. ...
... Relative atomic, isotopic, molecular and formula masses, based on the 12C scale. (Ar and M r). The term relative formula mass or Mr will be used for ionic compounds. ...
Lecture
... CHECKPOINT: There is a certain net flux I through a Gaussian sphere of radius r enclosing an isolated charged particle. Suppose the Gaussian surface is changed to (a) a larger Gaussian sphere, (b) a Gaussian cube with edge length equal to r, and (c) a Gaussian cube with edge length 2r. In each cas ...
... CHECKPOINT: There is a certain net flux I through a Gaussian sphere of radius r enclosing an isolated charged particle. Suppose the Gaussian surface is changed to (a) a larger Gaussian sphere, (b) a Gaussian cube with edge length equal to r, and (c) a Gaussian cube with edge length 2r. In each cas ...
forces_newton1_phy1151
... Draw a picture of the situation. Show the object—the system—and everything in the environment that touches the system. Ropes, springs, and surfaces are all parts of the environment. Draw a closed curve around the system. Only the object is inside the curve; everything else is outside. Locate e ...
... Draw a picture of the situation. Show the object—the system—and everything in the environment that touches the system. Ropes, springs, and surfaces are all parts of the environment. Draw a closed curve around the system. Only the object is inside the curve; everything else is outside. Locate e ...
The four Maxwell equations
... B is the magnetic flux through an area and D is the electric flux through an area. ...
... B is the magnetic flux through an area and D is the electric flux through an area. ...
centripetal acceleration/force
... neighbor. Assume your masses are 100 kg and the distance between you is 50 cm. Compare this to the gravitational force between you and the Earth. ...
... neighbor. Assume your masses are 100 kg and the distance between you is 50 cm. Compare this to the gravitational force between you and the Earth. ...
Force and Motion Vocabulary
... Motion: A change in position over time. Speed: The rate at which position changes. Speed includes distance and time. The formula to find speed is d/t. Instantaneous Speed: The speed traveled at any moment in time. Average Speed: The total distance divided by the total time. Velocity: Speed in a part ...
... Motion: A change in position over time. Speed: The rate at which position changes. Speed includes distance and time. The formula to find speed is d/t. Instantaneous Speed: The speed traveled at any moment in time. Average Speed: The total distance divided by the total time. Velocity: Speed in a part ...
Force
... An object is in free fall if it only has the force of gravity acting on it. In a vacuum, where there is no air at all, objects fall at the same rate of acceleration. But on Earth falling objects encounter air resistance, a type of fluid friction. ...
... An object is in free fall if it only has the force of gravity acting on it. In a vacuum, where there is no air at all, objects fall at the same rate of acceleration. But on Earth falling objects encounter air resistance, a type of fluid friction. ...