Slide 1
... • Vab = work done by electric force in moving unit charge from a to b • Vab work done against electric force in moving unit charge from b to a ...
... • Vab = work done by electric force in moving unit charge from a to b • Vab work done against electric force in moving unit charge from b to a ...
Unit B—Energy Flow in Technological Systems
... b) Mass is scalar; weight is a vector. Mass is measured in kilograms; weight is measured in newtons. Mass is constant; weight varies with the value of “g” (acceleration due to gravity). Mass is defined as the inertia of an object; weight is defined as the gravitational force acting on a mass. 5. 5.1 ...
... b) Mass is scalar; weight is a vector. Mass is measured in kilograms; weight is measured in newtons. Mass is constant; weight varies with the value of “g” (acceleration due to gravity). Mass is defined as the inertia of an object; weight is defined as the gravitational force acting on a mass. 5. 5.1 ...
Electric Potential - McMaster Physics and Astronomy
... Units: 1 volt V = 1 joule/coulomb •V is a SCALAR •V is determined to within an arbitrary constant. •We can choose to set V=0 at any position (most often at “r=infinity”) •There is no absolute potential Rule: Electrostatic field lines always point to decreasing electric potential. Why? Note: electric ...
... Units: 1 volt V = 1 joule/coulomb •V is a SCALAR •V is determined to within an arbitrary constant. •We can choose to set V=0 at any position (most often at “r=infinity”) •There is no absolute potential Rule: Electrostatic field lines always point to decreasing electric potential. Why? Note: electric ...
Energy - WEB . WHRSD . ORG
... What kinds of energy are there? Mechanical (potential, kinetic) electrical thermal light sound ...
... What kinds of energy are there? Mechanical (potential, kinetic) electrical thermal light sound ...
Lecture 8 - McMaster Physics and Astronomy
... Units: 1 volt V = 1 joule/coulomb •V is a SCALAR •V is determined to within an arbitrary constant. •We can choose to set V=0 at any position (most often at “r=infinity”) •There is no absolute potential Rule: Electrostatic field lines always point to decreasing electric potential. Why? Note: electric ...
... Units: 1 volt V = 1 joule/coulomb •V is a SCALAR •V is determined to within an arbitrary constant. •We can choose to set V=0 at any position (most often at “r=infinity”) •There is no absolute potential Rule: Electrostatic field lines always point to decreasing electric potential. Why? Note: electric ...
HW #3 (Due 9/16)
... 3. What is the difference between potential energy, kinetic energy, and radiant energy? You can do this by way of an example. Make up a situation where these three type change from one to another. In your example explain what the total energy is like throughout the situation. I will use an example t ...
... 3. What is the difference between potential energy, kinetic energy, and radiant energy? You can do this by way of an example. Make up a situation where these three type change from one to another. In your example explain what the total energy is like throughout the situation. I will use an example t ...
Electric Potential and Energy
... Positive work is stored energy Negative work is released energy Work is only done if there is a component of the electric field in the direction of the motion – If the motion is perpendicular to the electric field lines, no work is done – The electric field is constant in that direction ...
... Positive work is stored energy Negative work is released energy Work is only done if there is a component of the electric field in the direction of the motion – If the motion is perpendicular to the electric field lines, no work is done – The electric field is constant in that direction ...
L1 Energy - Don`t Trust Atoms
... Gravitational Potential Kinetic + Elastic + GP Elastic (Strain) + Gravitational Potential ...
... Gravitational Potential Kinetic + Elastic + GP Elastic (Strain) + Gravitational Potential ...
Energy Notes with Answers energy_notes_with_answers
... Light energy- Projector in classroom Motion energy- Kid doing push-ups ...
... Light energy- Projector in classroom Motion energy- Kid doing push-ups ...
