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Q: In an inverse relationship when one variable the other increase?

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In an inverse relationship, one variable decreases while the other increases. As an equation, a basic inverse relationship looks like x = 1/y.

It is unrelated

This is called an "inverse" relationship.

An inversely proportional relationship shows that as one variable of an equation increases, the other will decrease. A directly proportional relationship shows that as one variable increases, the other increases as well.

For a direct relationship of the magnitude of an entity to another there is increase in one with the increase of another : Eg: with increase in Pressure, Temperature increases with formula: PV=nRT For inverse relationship, there is decrease in magnitude of one with increase in other. Eg f=1/Time-Period

Inverse relationship

Well, it's a non-linear relationship. It could be inverse, or quadratic, or many other things.

If the graph shows a direct relationship, then the line will go up. If it shows an inverse relationship, the line will go down. A direct relationship means that as one variable increases, so does the other. On a graph, this means that as we move out along one axis, we also move out along the other. An inverse relationship means that as one variable increases, the other one decreases. So, for example, as we move to the right (X increasing), we have to move down (Y decreasing).

Unemployment

The other can increase, decrease or stay the same. It depends on the relationship between the two variables.

It enables you to show a relationship where an increase in one variable results in a decrease in the other.

When one variable changes, the other variable moves in the opposite direction.

Sodium and potassium have an inverse relationship. In an inverse relationship, two things are opposite and react to each other.

A negative correlation is a measure of the linear component of a relationship where one variable increase as the other decrease.

In an direct relationship, when one variable goes up, the other variable goes up as well. For example, the warmer the temperature gets, the greater the number of cricket chirps. Indirect relationships are opposite. In other words, when one variable goes up, the other variable goes down. An example of this would be the relationship goofing off in class and getting good grades. The more you goof off, the lower your grade is likely to be. The less you goof off, the higher your grade is likely to be.

An inverse proportion between two variables is when the value of one variable increases, the other decreases. Mathematically, this is shown as: x = k / yn where x and y are the two variables, and k and n are constants.

As viscocity increases fluid flow decreases ....in other words, the relationship is inverse.

If it is inverse, they do the opposite. So as one increases, the other decreases, and vice versa.

Let us say that we are considering two quantities which we can call x and y. These could be anything - temperature and pressure, population and crime rate, weight and height, etc. If these have a direct relationship (or a direct correlation as we might also call it) that means that if you increase one, you increase the other, or if you decrease one, you decrease the other. So if x increases, y also increases. If it is an inverse relationship (or correlation) that means that increasing one will decrease the other. If you get more x, you will then have less y. Note that there is a third alternative. Many things have no relationship, either direct or inverse, so if you increase x, that tells you nothing about what will happen with y. These quantities would be said to have no correlation.

A dependent variable depends on the other factors while an independent variable does not depend on the other factors.

Under Law of variable proportion: only one variable input varies all other variable kept constant. Under Law of Return to Scale: All the variable inputs varies except the enterprise. Law of variable proportion is for short period; law of return to scale is for long period. Law of variable proportion shows the relationship if one variable input increase (eg: Labour) by keeping all other variable constant; total product and marginal product increase upto a certain point after that it will increase at a diminishing rate. it shows in three stage first increase then constant and then decrease. Law of return to scale shows the relationship between inputs and output at three different stages: 1. output increase more than inputs, 2. output and input are constant, 3. output is less than proportionate input.