Direct proportionality. Their graph would be a straight line through the origin, with the slope equal to the ratio.
A direct proportion
They are the same.
It is a line of the form y = c where c is any constant.It is a line of the form y = c where c is any constant.It is a line of the form y = c where c is any constant.It is a line of the form y = c where c is any constant.
A direct conversion does not exist, as nanometers and Joules are not units of the same type. Nanometers are a unit of distance, and Joules are a unit of energy.There is a relationship between them though:1J = 1N×m1 nm = 1×10−9 m∴ 1J = 1N×109 nmOr the inverse:∴ 109 nm = 1J/1N∴ 1nm = 1J/109N
. . . a Line graph.Line graphs are used to track changes over short and long periods of time. When smaller changes exist, line graphs are better to use than bar graphs. Line graphs can also be used to compare changes over the same period of time for more than one group.. . . a Pie Chart.Pie charts are best to use when you are trying to compare parts of a whole. They do not show changes over time.. . . a Bar Graph.Bar graphs are used to compare things between different groups or to track changes over time. However, when trying to measure change over time, bar graphs are best when the changes are larger.. . . an Area Graph.Area graphs are very similar to line graphs. They can be used to track changes over time for one or more groups. Area graphs are good to use when you are tracking the changes in two or more related groups that make up one whole category (for example public and private groups).. . . an X-Y Plot.X-Y plots are used to determine relationships between the two different things. The x-axis is used to measure one event (or variable) and the y-axis is used to measure the other. If both variables increase at the same time, they have a positive relationship. If one variable decreases while the other increases, they have a negative relationship. Sometimes the variables don't follow any pattern and have no relationship.:)
no.. thats false.. its actually the opposite
Yes, it does. Every time there are variables in direct or inverse relationship, there is a constant of proportionality.
A relationship between variables
the perception of a relationship between two variables that does not actually exist.
Causation, correlation...
non sexual relationship
competition
There doesn't exist such a thing. What does exist are standardized variables, which are variables with mean = 0 and standard deviation = 1
Where only bivariate collinear relations exist, a matrix of correlation coefficients is a perfectly adequate diagnostic tool for identifying collinearity. However, they are incapable of diagnosing a collinear relationship involving more than two indepdendent variables. This is the advantage of auxilliary regression. They allow a researcher to detect a collinear relationship between as many independent variables as the researcher requires.
yes
These changing quantities are called variables. A variable is any factor, trait, or condition that can exist in differing amounts or types. An experiment usually has three kinds of variables: independent, dependent, and controlled.
Direct or inverse relationships,that is a problem
Trade-off triangle is a relationship between the project variables of resources (people and money), schedule (time), and features (scope). These variables exist in a triangular relationship. After you have established the triangle, any change to one of its sides requires a correction on one or both of the other sides to maintain project balance. This includes, potentially, the same side on which the change first occurred.