Review Sheet for Test 3
... (g) Find the equation of the vertical line which passes through the point (17, −33). A vertical line has an equation of the form x = (a number). In this case, the number is the x-coordinate of (17, −33) — that is, 17. So the vertical line which passes through the point (17, −33) is x = 17. (h) Find ...
... (g) Find the equation of the vertical line which passes through the point (17, −33). A vertical line has an equation of the form x = (a number). In this case, the number is the x-coordinate of (17, −33) — that is, 17. So the vertical line which passes through the point (17, −33) is x = 17. (h) Find ...
The Spectrum of the Hydrogen Atom
... background on a few of the main contributors to the theory. We go on to explain what wavefunctions are, and define the Schrödinger equation, which we then simplify for hydrogen into a time-independent form. In order to solve this equation, we review the method of separation of variables, using the ...
... background on a few of the main contributors to the theory. We go on to explain what wavefunctions are, and define the Schrödinger equation, which we then simplify for hydrogen into a time-independent form. In order to solve this equation, we review the method of separation of variables, using the ...
Document
... It’s best to use the elimination method when equations can easily be added or subtracted to eliminate one of the variables. To use the elimination method, add the equations together to “eliminate” one of the variables. Solve the remaining equation, which will have only one variable. Substitute the ...
... It’s best to use the elimination method when equations can easily be added or subtracted to eliminate one of the variables. To use the elimination method, add the equations together to “eliminate” one of the variables. Solve the remaining equation, which will have only one variable. Substitute the ...
Hunting for Snarks in Quantum Mechanics
... complex vector has been noted many times, but here the unit imaginary is the unit pseudoscalar so it has a geometric meaning (which, by the way, explains why B is an axial vector, while E is a polar vector in standard vector algebra)6. Of course, the notation !µ has been chosen to emphasize isomorph ...
... complex vector has been noted many times, but here the unit imaginary is the unit pseudoscalar so it has a geometric meaning (which, by the way, explains why B is an axial vector, while E is a polar vector in standard vector algebra)6. Of course, the notation !µ has been chosen to emphasize isomorph ...