Part I
... • Circumference = Distance Around= 2πr Speed: v = (2πr/T) = 2πrf Centripetal Acceleration: ...
... • Circumference = Distance Around= 2πr Speed: v = (2πr/T) = 2πrf Centripetal Acceleration: ...
Notes on Fluid Dynamics These notes are meant for my PHY132
... The last line is recognized as the weight of the fluid displaced. Note that the ρ on the right side is the density of the fluid and has nothing to do with the object in the fluid. Thus, the bouyant force only depends on the volume of the object and the density of the fluid. It does not depend on the ...
... The last line is recognized as the weight of the fluid displaced. Note that the ρ on the right side is the density of the fluid and has nothing to do with the object in the fluid. Thus, the bouyant force only depends on the volume of the object and the density of the fluid. It does not depend on the ...
Coulomb`s Law
... forces, charges, and distance. It is like Newton’s law of gravity. But, unlike gravity, electric forces can be attractive or repulsive. Discovered by French Scientist, Charles Coulomb in the 18th Century. ...
... forces, charges, and distance. It is like Newton’s law of gravity. But, unlike gravity, electric forces can be attractive or repulsive. Discovered by French Scientist, Charles Coulomb in the 18th Century. ...
Resource Doc File - Dayton Regional Stem Center
... of 98N pulling it down to Earth. Fgrav = mass * gravity Fgrav = 10kg * 9.8 m/s2 Fgrav = 98 N ...
... of 98N pulling it down to Earth. Fgrav = mass * gravity Fgrav = 10kg * 9.8 m/s2 Fgrav = 98 N ...
PhysCh7.78
... • Acceleration directed toward the center of a circular path • Although an object is moving at a constant speed, it can still have an acceleration. • Velocity is a vector, which has both magnitude and DIRECTION. • In circular motion, velocity is constantly changing direction. ...
... • Acceleration directed toward the center of a circular path • Although an object is moving at a constant speed, it can still have an acceleration. • Velocity is a vector, which has both magnitude and DIRECTION. • In circular motion, velocity is constantly changing direction. ...
Energy in Simple Harmonic Motion
... your predictions? If it is not the same, what is different and why? ...
... your predictions? If it is not the same, what is different and why? ...
Magnetostatics II
... steady current. However, static charge in one reference frame can be seen as moving charges in another reference frame moving with a relative velocity with respect to the first frame. This requires some comments. In the following, we assume familiarity with basic concepts of the special theory of re ...
... steady current. However, static charge in one reference frame can be seen as moving charges in another reference frame moving with a relative velocity with respect to the first frame. This requires some comments. In the following, we assume familiarity with basic concepts of the special theory of re ...
