by POISON DART August 22, 2008
Get the Foodingmug. An edible substance which comes in a variety of shapes and sizes, flavours etc. What all living organisms need to survive.
by Mr Munchkins August 24, 2005
Get the Foodmug. A ridiculously dope song by chicago rapper common, featuring kanye west, originally appearing live on chappelle's show.
"Yeah, it's been a long time comin, but you know what they say kanye, slow motion better than no motion". - The Food.
by nick886 May 11, 2009
Get the The Foodmug. by I fuck gays (noHOMO) June 8, 2019
Get the Foodmug. by RecklessReese June 25, 2009
Get the Foodmug. Why werent you there?
...Foodness.
...Foodness.
by Anonymous May 28, 2003
Get the foodnessmug. A first order ordinary differential equation - that is, an equation that relates a function of one variable and it's first derivative in some way.
"Why Elwood, how do I find the solution to dy/dx = y/x?"
"Well that's a simple matter, Eleanor, though I know not why a woman such as yourself would have an interest in maths. That is an example of a separable first order ordinary differential equation, or separable FOODE. Rearrange to get (1/y)dy = (1/x)dx, and integrate both sides to get lny = lnx + c. You may then solve for y, yielding y = xexp(c), where c is an arbitrary constant of integration. Noting exp(c) is itself an arbitrary constant, you may simplify to y = kx. So dy/dx in that differential equation is the derivative of any straight line that passes through the origin."
"Gadzooks! It is far more elementary than I at first had imagined. Now let us get in this motor coach and ride blissfully towards the sunset."
"Well that's a simple matter, Eleanor, though I know not why a woman such as yourself would have an interest in maths. That is an example of a separable first order ordinary differential equation, or separable FOODE. Rearrange to get (1/y)dy = (1/x)dx, and integrate both sides to get lny = lnx + c. You may then solve for y, yielding y = xexp(c), where c is an arbitrary constant of integration. Noting exp(c) is itself an arbitrary constant, you may simplify to y = kx. So dy/dx in that differential equation is the derivative of any straight line that passes through the origin."
"Gadzooks! It is far more elementary than I at first had imagined. Now let us get in this motor coach and ride blissfully towards the sunset."
by Ancestral January 8, 2010
Get the foodemug.