You have to consider the possibility that the expression within the absolute sign bars is positive, or that it is negative.
A simple example:
| x + 3 | = 10
If x + 3 is positive:
x + 3 = 10
x = 7
If x + 3 is negative:
x + 3 = -10
x = -13
You have to consider the possibility that the expression within the absolute sign bars is positive, or that it is negative.
A simple example:
| x + 3 | = 10
If x + 3 is positive:
x + 3 = 10
x = 7
If x + 3 is negative:
x + 3 = -10
x = -13
You have to consider the possibility that the expression within the absolute sign bars is positive, or that it is negative.
A simple example:
| x + 3 | = 10
If x + 3 is positive:
x + 3 = 10
x = 7
If x + 3 is negative:
x + 3 = -10
x = -13
You have to consider the possibility that the expression within the absolute sign bars is positive, or that it is negative.
A simple example:
| x + 3 | = 10
If x + 3 is positive:
x + 3 = 10
x = 7
If x + 3 is negative:
x + 3 = -10
x = -13
You have to consider the possibility that the expression within the absolute sign bars is positive, or that it is negative.
A simple example:
| x + 3 | = 10
If x + 3 is positive:
x + 3 = 10
x = 7
If x + 3 is negative:
x + 3 = -10
x = -13
u = initial velocity in newtons equations of motion.
88 keys on a piano.
The initial acceleration of an object can be found by calculating the change in velocity over time. This can be done by dividing the final velocity by the time taken to reach that velocity. The formula for initial acceleration is: initial acceleration = (final velocity - initial velocity) / time.
90=d in a R A, 31=F at B R, 18=H on a G C, 8=S on a S S, 9=J on the S C, and 21= D on a D
In order to work out a complement fraction, one would take the initial fractional value and add "x" to it, thus equaling the target value. Then with a simple switch of the two sides of the equations and a balancing order, the x would solve itself.
u = initial velocity in newtons equations of motion.
2 = Pints in a Quart
88 keys on a piano.
This is beacause it is in the absolute kelvin scale with -273 as the initial temperature. Also known as the absolute temperature.
k=Rate/[A^m][B^n]
The exposition in "The Cold Equations" occurs at the beginning of the story when the setting, characters, and initial conflict are introduced. This typically happens in the first few paragraphs or pages of a story.
You use the information you're given, along with the equations and formulas you know that express some kind of relationship between the information you're given and the initial and final velocity.
absolute zero
to incorporate initial conditions when solving difference equations using the z-transform approach
Initial Value Problem. A differential equation, coupled with enough initial conditions for there to be a unique solution. Example: y'' - 6y = exp(x) ; y'(0) = y(0) = 0
You use the information items you're given, which for example may include time, initial velocity, initial and/or final position, or acceleration, together with the equations you've learned that express the relationship among these quantities.
It stands for "Initial Value Problem." So once you find the general solution of the Diff Eq, you plug in these given initial conditions (e.g. for a 2nd order; y(0) = 1, y'(0) = 0) to find the specific solution.