Can we pretend that airplanes in the night sky
are like f(x)?
I could really use a graph right now,

graph right now,
graph right now.
Can we pretend that airplanes in the night sky

are like f(x)?
I could really use a graph right now,
graph right now,

graph right now.

Yeah

You could use a graph or a genie or a wish,
to figure out an answer much simpler than this.
But if you know the rules of the sum and the power,

and difference and product and quotient,
and constant multiple and all that madness,
there'll come a time when you need this Calc badness.

And you're starin' at that calc in your lap and you hopin'
but your TI ain't got your back.


But that's just how the theorem unfolds,
you make this limit loud and that limit be bold.
And when you sum unravels on that sheet,

find the limit of each and make that feat.

So limit, limit, got my mind back,

I'm figurin' this out, back on track.
So difference and product are the same,
but what the heck do I do about this endless game?


Can we pretend that airplanes in the night sky
are like f(x)?

I could really use a graph right now,
graph right now,
graph right now.

Can we pretend that airplanes in the night sky
are like f(x)?
I could really use a graph right now,

graph right now,
graph right now.


Yea, yeah.
This is easy if you got my ways,
without a calculator, without this craze.

Without you ever cheatin' behind your teachers' back,
and back when I was tryin' to solve math on school days.
And back when I was calcin' for the heck of it,

but nowadays we calcin' to keep grades in it.
I'm guessing that if we make some graphs outta airplanes,
then maybe, oh maybe we'll go back to the days.

Before the TI that we use for Calc games;
properties of the limits are the same in here,
just find out if the domain in the limit is clear.


But this is fo' Shenuski, what's up Mrs. Miscia?
So can I get a c?

to substitute this x,
and plug it in the function
that started this ish,


So here I stand and again I say,
"Stop hopin' we can make some graphs outta airplanes."


Can we pretend that airplanes in the night sky
are like f(x)?

I could really use a graph right now,
graph right now,
graph right now.

Can we pretend that airplanes in the night sky
are like f(x)?
I could really use a graph right now,

graph right now,
graph right now.


Yeah.
Don't think you need a graph or a genie or a wish,
just use your algebra that I'm sure you miss.
Just figure out the a's, and the b's, and the c's,
and all the m's and the n's for the powers,

And leading terms with the highest exponents,
relate the m and the n to get components.
Remember what Ms. Blumberg said then,

That your horizontal asymptote is told by this.

Put the ax to the m on top,
and on the bottom you gotta put the bx to the n,
and when you find the quotient outta that,
then you're gonna get the same limit right out flat.


So student, student, sorry it's late.
But you know your limits and changed your fate,
When you get your test, better get it done right,
Or I'll be rappin' back at you by the end of the night.


Can we pretend that airplanes in the night sky
are like f(x)?
I could really use a graph right now,
graph right now,
graph right now.
Can we pretend that airplanes in the night sky

are like f(x)?
I could really use a graph right now,
graph right now,
graph right now.

You don't really need a graph right now...
You, you, you don't really need a graph right now...

Like, like, like f(x)...
Yeah, yeah, yeah, you don't really need a graph right now...
A graph, a graph right now, right now...