The graph of a linear function is a straight line. The slope of the line describes how fast the function changes with respect to the independent variable, and thus represents the average rate of change. Answer
b is bigger than zero (b > 0) b is not equal to 1 (b ≠ 1) y (output value) is a positive real numberNotice the use of the independent variable (x) as an exponent. This is important in order to have an exponential function. The input value must be an exponent!Why...
A function relates an input to an output. It is like a machine that has an input and an output. And the output is related somehow to the input.
To understand the axon, we need to look at the bigger picture of how our nervous system is constructed. The nervous system reaches into every part of our body, touching every tissue group, and acts as a communication pathway between our brains and the rest of the body. To do this, the...
Here is a selection of the new features of the Bode Analyzer Suite V2.2: The extended measurement range 1Hz – 40MHzallows network analysis and impedance measurements within… Nov2006 OMICRON Lab has added several customer examples on how the Bode 100 is being used ...
linear programming is a mathematical optimization technique used to solve problems with linear constraints. it involves maximizing or minimizing an objective function while satisfying a set of linear equality or inequality constraints. it has various applications in areas such as resource allocation, ...
The function below has a removable discontinuity atx=2x=2. Redefine the function so that itbecomes continuousatx=2x=2. f(x)=x2−2xx2−4f(x)=x2−2xx2−4 Solution The graph of the function is shown below for reference.
Below you can find news about all of our releases. The latest release will always be on the top, and you can expand information about any release by clicking on it. Information is grouped by features that were updated, and you can find more information by clicking on the feature that inte...
MathHelp.comGraph the following: y=x+2x2+1y=x2+1x+2First, I note that the denominator doesn't factor, so nothing is going to cancel out.Next, I'll find any vertical asymptotes, by setting the denominator equal to zero and solving:Advertisement x...
To gain a deeper insight into this, let's contemplate a linear graph characterized by a scale that increments by one. In this scenario, each step forward or backward on the graph corresponds to a change of one unit. Now, contrast this with a logarithmic graph, wherein the scale is rooted...