The same as any other person - from the ground to the top of their head - measured without artificial limbs.
You define a function with an return value. The return value would be the area of the triangle, and the parameters are the width/length and height of the triangle. Inside the function you would define how you would calculate the area, and then return the result.
How would you define a subtancebased on what you have obsrved
How would you define a subtancebased on what you have obsrved
define library filing
define the term "electromegnetism".
Define buoncy.explain it cause?
You can define your partner by his or her characters. You can also define your partner by how they make you feel.
the height of a moa would be
no, but they are so high that people claim that they do touch the sky, which they don't. They just reach so high! First you would have to define at what height the sky begins
For a box, the dimensions the define a volume would be:Height, Width, and DepthFor a cylinder, the dimensions that define a volume would be:Height and Diameter
Conventionally a triangle's height is given as the perpendicular distance to the apex above an arbitarily defined base. Without such a definition, the formula for the area of a triangle, 0.5 x base x perpendicular HEIGHT, would have no meaning. However, a single height measurement given in isolation does not define any particular triangle as that alone can be found in an infinate number of triangles.
Since the question seems to be about reactions - and the whole idea of a reaction is that something is changing... The CHANGE in Gibbs free energy will always be positive for a spontaneous reaction. As far as whether the Gibbs free energy of a system (without the term "change" attached) ... Since Gibbs free energy is a state function, it is always defined relative to a standard state. Asking if the Gibbs free energy is positive is akin to asking how "high" something is - the answer depends on where you define zero to be. If you define 0 height to be the level of the ground you are standing on, you will get a different answer than if you define zero height to be "sea level". A cactus in Death Valley may have a positive height relative to the ground, but would actually have a negative height relative to sea level. Likewise, the Gibbs free energy of a system will be positive or negative (or zero) depending on what you define as the standard state.