Representing Simultaneous Equations Graphically
... lesson. We then created a problem which could be solved using various methods, including with linear graphs. We anticipated student responses and designed a layout for the board. Students attempted another problem in the method of their choice for homework. ...
... lesson. We then created a problem which could be solved using various methods, including with linear graphs. We anticipated student responses and designed a layout for the board. Students attempted another problem in the method of their choice for homework. ...
Electromagnetics (Math - 262)
... Magnetism. Magnetic Field. Magnetic field lines and magnetic flux. Motion of charged particles in magnetic fields. ...
... Magnetism. Magnetic Field. Magnetic field lines and magnetic flux. Motion of charged particles in magnetic fields. ...
Station 2: Key Features of Functions
... Bill spent $60 on fertilizer and weed killer for his lawn. Each pound of fertilizer cost 75 cents, and each ounce of weed killer cost $2.50. a) Write an equation that represents this situation. b) Interpret the slope and y-intercept in the context of the situation. c) If Bill buys 10 pounds of ferti ...
... Bill spent $60 on fertilizer and weed killer for his lawn. Each pound of fertilizer cost 75 cents, and each ounce of weed killer cost $2.50. a) Write an equation that represents this situation. b) Interpret the slope and y-intercept in the context of the situation. c) If Bill buys 10 pounds of ferti ...
Homogeneous Equations with Constant Coefficients
... based on the Maclaurin series for the exponential function ex = ...
... based on the Maclaurin series for the exponential function ex = ...
The History of Algebra
... to solve linear (ax = b) and quadratic (ax2 + bx = c) equations, as well as indeterminate equations such as x2 + y2 = z2, whereby several unknowns are involved. The ancient Babylonians solved arbitrary quadratic equations by essentially the same procedures taught today. They also could solve some in ...
... to solve linear (ax = b) and quadratic (ax2 + bx = c) equations, as well as indeterminate equations such as x2 + y2 = z2, whereby several unknowns are involved. The ancient Babylonians solved arbitrary quadratic equations by essentially the same procedures taught today. They also could solve some in ...
