PHY2054 Exam 1 Formula Sheet
... Electric Potential Energy: work done against a constant field E in moving charge q a distance d along Electric Potential: Work done per unit charge against a constant field E in moving charge q a distance d ...
... Electric Potential Energy: work done against a constant field E in moving charge q a distance d along Electric Potential: Work done per unit charge against a constant field E in moving charge q a distance d ...
green sheet
... _____ Calculate kinetic energy, including using the correct SI units (ch 12.3) _____ Use kinetic energy to predict mass and velocity of an object (ch 12.3) _____ Identify positions associated with maximum and minimum values of kinetic and gravitational potential energy (ch 12.3) _____ Solve problems ...
... _____ Calculate kinetic energy, including using the correct SI units (ch 12.3) _____ Use kinetic energy to predict mass and velocity of an object (ch 12.3) _____ Identify positions associated with maximum and minimum values of kinetic and gravitational potential energy (ch 12.3) _____ Solve problems ...
PHYS 196 Class Problem 1
... 3. Consider three points A,B,C on the x-y plane, where a uniform electric field E 100( N / C )iˆ exists. The coordinates in meters for these points are: A=(4,0), B=(-1,0) and C=(-2,2). Find the potential difference VB VA and VC VA . 4. At the points A and B, the potentials are 1000V and 1500V ...
... 3. Consider three points A,B,C on the x-y plane, where a uniform electric field E 100( N / C )iˆ exists. The coordinates in meters for these points are: A=(4,0), B=(-1,0) and C=(-2,2). Find the potential difference VB VA and VC VA . 4. At the points A and B, the potentials are 1000V and 1500V ...
Presentation
... to be used, due to an object’s position or condition. Examples: - Nuclear -Chemical - Elastic - Gravitational ...
... to be used, due to an object’s position or condition. Examples: - Nuclear -Chemical - Elastic - Gravitational ...
Conservation of Energy
... In general, for any conservative force system, we can define the potential function (V) as a function of position. The work done by conservative forces as the particle moves equals the change in the value of the potential function (the sum of Vgravity and Vsprings). It is important to become familia ...
... In general, for any conservative force system, we can define the potential function (V) as a function of position. The work done by conservative forces as the particle moves equals the change in the value of the potential function (the sum of Vgravity and Vsprings). It is important to become familia ...
Energy, Work, and Power
... An energy transformation occurs whenever energy changes from one form into another. Examples of this would be a ball being held above the ground (gravitational potential) and then being released to fall to the ground (kinetic). ...
... An energy transformation occurs whenever energy changes from one form into another. Examples of this would be a ball being held above the ground (gravitational potential) and then being released to fall to the ground (kinetic). ...
Quiz 2 – Electrostatics (29 Jan 2007) q ˆr
... 2. (1/2 pt) If the area of the plates were to quadruple, the capacitance would A. Quadruple B. Double C. Remain unchanged D. Be cut by a factor of 2 E. Be cut by a factor of 4 3. (1/2 pt) A battery is placed across capacitor plates, with C = 2.5 µF, as also illustrated in figure 1. What is the magn ...
... 2. (1/2 pt) If the area of the plates were to quadruple, the capacitance would A. Quadruple B. Double C. Remain unchanged D. Be cut by a factor of 2 E. Be cut by a factor of 4 3. (1/2 pt) A battery is placed across capacitor plates, with C = 2.5 µF, as also illustrated in figure 1. What is the magn ...