PPT
... charged using a battery. Charge = Q, potential voltage difference = V. Battery is then disconnected. ...
... charged using a battery. Charge = Q, potential voltage difference = V. Battery is then disconnected. ...
In pptx
... • Equipotential lines are lines connecting points of the same potential. • Equipotential lines are always perpendicular to field lines, and therefore perpendicular to the force experienced by a charge in the field. • If a charge moves along an equipotential line, no work is done; if a charge moves b ...
... • Equipotential lines are lines connecting points of the same potential. • Equipotential lines are always perpendicular to field lines, and therefore perpendicular to the force experienced by a charge in the field. • If a charge moves along an equipotential line, no work is done; if a charge moves b ...
Types of Energy
... • Definition: Energy stored in the bonds of molecules. The energy that holds the particles together. • Examples: biomass (wood), fossil fuels (oil), ...
... • Definition: Energy stored in the bonds of molecules. The energy that holds the particles together. • Examples: biomass (wood), fossil fuels (oil), ...
03_E2_ws2_key
... 3. Calculate the gravitational potential difference between: a) point A and the base of the hill GP = gh = (10N/kg)-100m = -1000J/kg b) point B and the base of the hill GP = gh = (10N/kg)-200m = -2000J/kg c) point C and point A GP = gh = (10N/kg) 0m = 0 d) point C and point E GP = gh = (10N/kg)2 ...
... 3. Calculate the gravitational potential difference between: a) point A and the base of the hill GP = gh = (10N/kg)-100m = -1000J/kg b) point B and the base of the hill GP = gh = (10N/kg)-200m = -2000J/kg c) point C and point A GP = gh = (10N/kg) 0m = 0 d) point C and point E GP = gh = (10N/kg)2 ...
Gauss` Law and Applications
... dW = Fapplied.dl = -FCoulomb.dl = -qE.dl = -qEdl cos q dl cos q = dr q1 1 dW q ...
... dW = Fapplied.dl = -FCoulomb.dl = -qE.dl = -qEdl cos q dl cos q = dr q1 1 dW q ...
What Is Energy?
... 1. A rollercoaster at the top of a hill OR at the bottom of a hill. Top—higher objects have more PE 2. A bowling ball dropped off the top of a building OR a golf ball dropped off the top of a building. Bowling ball—objects with more weight have more PE ...
... 1. A rollercoaster at the top of a hill OR at the bottom of a hill. Top—higher objects have more PE 2. A bowling ball dropped off the top of a building OR a golf ball dropped off the top of a building. Bowling ball—objects with more weight have more PE ...
Electric potential
... exertion of work by an external force would in turn add potential energy to the object. • The natural direction of motion of an object is from high energy to low energy; but work must be done to move the object against nature. • On the other hand, work would not be required to move an object from a ...
... exertion of work by an external force would in turn add potential energy to the object. • The natural direction of motion of an object is from high energy to low energy; but work must be done to move the object against nature. • On the other hand, work would not be required to move an object from a ...
File
... • The five main forms of energy are: – Heat or Thermal Energy • the vibration and movement of the atoms and molecules within substances. – Chemical Energy • energy stored in the bonds of atoms and molecules. – Electrical Energy • delivered by tiny charged particles called electrons, typically moving ...
... • The five main forms of energy are: – Heat or Thermal Energy • the vibration and movement of the atoms and molecules within substances. – Chemical Energy • energy stored in the bonds of atoms and molecules. – Electrical Energy • delivered by tiny charged particles called electrons, typically moving ...
