Solve a System of Equations
... Use elimination to solve the system of equations. 2x + y = 23 3x + 2y = 37 Multiply the first equation by –2 so the coefficients of the y terms are additive inverses. Then add the equations. 2x + y = 23 ...
... Use elimination to solve the system of equations. 2x + y = 23 3x + 2y = 37 Multiply the first equation by –2 so the coefficients of the y terms are additive inverses. Then add the equations. 2x + y = 23 ...
The Structure of Matter
... • Gas laws---relations between density, temperature, and pressure---can be explained by colliding atoms (or molecules) ...
... • Gas laws---relations between density, temperature, and pressure---can be explained by colliding atoms (or molecules) ...
PowerPoint
... In order to ask many questions at once, we need a way to represent data at a quantum level. Just as with classical computers, we can use 0’s and 1’s the represent numbers in binary. One way to do this is via the spin of a fundamental particle (such as an electron). Many fundamental particles possess ...
... In order to ask many questions at once, we need a way to represent data at a quantum level. Just as with classical computers, we can use 0’s and 1’s the represent numbers in binary. One way to do this is via the spin of a fundamental particle (such as an electron). Many fundamental particles possess ...
Solving Absolute Value Equations
... Now solve the same problem again, only this time use the graphing method. ...
... Now solve the same problem again, only this time use the graphing method. ...
Applications in Physics Diffusion, fluid flow, etc.
... Physical rules look the same forwards and backwards. E.g., Watch a lump of cream disappear into coffee according to the physics of diffusion. If could magically reverse time, we’d watch the cream un-diffuse back into a lump. ...
... Physical rules look the same forwards and backwards. E.g., Watch a lump of cream disappear into coffee according to the physics of diffusion. If could magically reverse time, we’d watch the cream un-diffuse back into a lump. ...
Magnetic Moment
... How do we interpret the results? 1. We can compare the magnetic moment with literature values for that ion 2. We can decide if the expected oxidation state of the metal matches 3. We can decide what the geometry of the complex is 4. We can decide if the complex is high spin or low spin 5. We can dec ...
... How do we interpret the results? 1. We can compare the magnetic moment with literature values for that ion 2. We can decide if the expected oxidation state of the metal matches 3. We can decide what the geometry of the complex is 4. We can decide if the complex is high spin or low spin 5. We can dec ...
