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The amount of available goods or services is called supply.
A quantity supplied is more than quantity demanded its called A Surplus.
The measure of all goods and services product by a country in a year is called "gross domestic product" which is often abbreviated GDP. I think it is called gross national product but I could be wrong.
this is called equilibrium or competitive equilibrium.
it is called a shortage
The amount of available goods or services is called supply.
Mass is a quantity that describes the concentration of matter. Mass is an aggregate measure of matter and it also determines the weight of an object.
They must have compatible units of measure. For example, you cannot directly add a quantity measured in meters to a quantity measured in centimeters. If their units of measure are compatible but not identical, one can be converted to the other. On the other hand, there is no way to add a quantity in feet to a quantity in pounds, as those are incompatible units of measure. Additionally, if the quantities are fractions, they must also have the same denominators, also called sharing a common denominator.
A quantity supplied is more than quantity demanded its called A Surplus.
The measure of all goods and services product by a country in a year is called "gross domestic product" which is often abbreviated GDP. I think it is called gross national product but I could be wrong.
There are many different free voice-mail services available for a land-line telephone, including a called "Tracfone" available in many different areas across the U.S.
supply.. or demand. a or b.. 50/50 chance
The quantity of matter in an object is called mass.
justified in terms of profitability.
The difference between actual quantity and standard quantity is called the material quantity variance.
it is called the bolam equation, where x is the total quantity of matter existing in the universe at any point in time/space: x = f/4gh(*gfh^t) . tt, ms~po =
it is called the bolam equation, where x is the total quantity of matter existing in the universe at any point in time/space: x = f/4gh(*gfh^t) . tt, ms~po =