ch 9 - combining like terms
... of the equation separately -- by combining like terms. Then the equation will look similar to part D of the previous example, and we’ll be in good shape. ...
... of the equation separately -- by combining like terms. Then the equation will look similar to part D of the previous example, and we’ll be in good shape. ...
Second-Order Linear Differential Equations
... If y1 and y2 are linearly independent solutions to a homogeneous differential equation, and P(x) ≠ 0, then the general solution is given by y(x) = c1y1(x) + c2y2(x), where c1 and c2 are arbitrary constants. The general solution to the differential equation is a linear combination of two linearly i ...
... If y1 and y2 are linearly independent solutions to a homogeneous differential equation, and P(x) ≠ 0, then the general solution is given by y(x) = c1y1(x) + c2y2(x), where c1 and c2 are arbitrary constants. The general solution to the differential equation is a linear combination of two linearly i ...
Math 115
... If necessary, multiply each side of one or both equations by some number so that the numerical coefficients of one of the variables are of equal absolute value. If these coefficients of equal absolute value have like signs, subtract one equation from the other. If they have unlike signs, add the equ ...
... If necessary, multiply each side of one or both equations by some number so that the numerical coefficients of one of the variables are of equal absolute value. If these coefficients of equal absolute value have like signs, subtract one equation from the other. If they have unlike signs, add the equ ...
Document
... If we let a = v t, where v is positive and t is time, then the displacement will increase with time. So f(x-vt) represents a rightward, or forward, propagating wave. Similarly, f(x+vt) represents a leftward, or backward, propagating wave. v will be the velocity of the wave. ...
... If we let a = v t, where v is positive and t is time, then the displacement will increase with time. So f(x-vt) represents a rightward, or forward, propagating wave. Similarly, f(x+vt) represents a leftward, or backward, propagating wave. v will be the velocity of the wave. ...
Where is the blood?
... CO at rest ~5000 mL/min (~5 L/min) Aortic flow at rest ~5000 mL/min (~5 L/min) Blood flows from high pressure to low pressure – Down the pressure gradient ...
... CO at rest ~5000 mL/min (~5 L/min) Aortic flow at rest ~5000 mL/min (~5 L/min) Blood flows from high pressure to low pressure – Down the pressure gradient ...
L6 Protoplanetary disks Part II
... for α doesn't assume a constant value for the viscosity as we can see from the last equation. If H/r is follows a powerlaw (as we saw for the MMSN), then the viscosity will also follow a powerlaw as a function of radius. This last equation, using α=10-3 , r=1AU and (H/r)=0.1, yields ν=1.5 × 1014 cm2 ...
... for α doesn't assume a constant value for the viscosity as we can see from the last equation. If H/r is follows a powerlaw (as we saw for the MMSN), then the viscosity will also follow a powerlaw as a function of radius. This last equation, using α=10-3 , r=1AU and (H/r)=0.1, yields ν=1.5 × 1014 cm2 ...
