no, work done is the area under a force-distance graph
Neural networks viewed as directed graphs is done by utilizing the Boltzmann machine. With this process the Boltzman machine seeks the shortest path to the directed graph.
An even function is symmetric about the y-axis. The graph to the left of the y-axis can be reflected onto the graph to the right. An odd function is anti-symmetric about the origin. The graph to the left of the y-axis must be reflected in the y-axis as well as in the x-axis (either one can be done first).
Just as you would draw the graph of any other function: -- Select several different numbers for 'x'. -- For each one, calculate the value of "sin1by x", and mark the point on the graph paper. -- After you've done this for enough values of 'x', you'll start to see the shape of the graph, with whatever twists and turns it may have. From there, you can draw most of it free-hand, without any more calculations.
you can turn the equation in y-intercept format i.e y=mx+b this helps to graph any math equation. P.S: if u don't get the answer to ur question plzz tell me the question to show it to u how it's done.
This most likely means that a stat plot is on, and that a list that the stat plot was using is blank. (If you get a DIM MISMATCH error, it probably means that the lists that the stat plot was using don't have the same number of values.) If you are trying to graph the stat plot, go back and look at your data in the lists. If you are not trying to graph a stat plot, then press 2ND STAT PLOT (above Y=) and select Plots Off. Press ENTER until you see "Done". Then try to graph again.
Not if the gradient calculation is done correctly.
It is the force constant of the material in N/m. So you can substitute it into the equation F=kx (F=force, k=force constant or gradient in N/m, x = extension) You would expect the extension to be on the y-axis normally since it is the measured value. However since you want to use the graph to calculate certain values it is on the x-axis (you can also find the work done by the force by finding the area under the graph) Also it allows you to divide the y-axis values by the cross-sectional area and x-axis values by original length to get a stress vs strain graph where you can use the gradient to find the Young modulus of the material.
Yes of course all transition metals are ohmic conductors. (voltage proportional to current at constant temperature with resistance rising or gradient of V-I graph decreasing at higher temperatures) Believe me I've just done physics A.S.
Rise represents the change in y-values on a graph, e.g. if the rise is equal to 10, the y-value changes by 10. Run represents the change in x-values on a graph, e.g. if the run is equal to 5, the x-value changes by 5. knowing both the rise and the run is necessary to calculate the gradient, or slope of a graph - this is done by dividing the rise by the run, in this case it would be equal to 10/5 = 2
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When making a graph there are certain requirements for ensuring the graph will be accurate. When numbering each axis it is important to ensure that there are the same number of decimal points as what coincides with the data that is recorded.
No studies have been done - you should do this for a science project and get an A!
Yes, highlight the information on the spreadsheet. Go to insert...create....click on Next, then choose a style of graph, and click done.
work = force times distance
Neural networks viewed as directed graphs is done by utilizing the Boltzmann machine. With this process the Boltzman machine seeks the shortest path to the directed graph.
Productivity is defined as the output done, in a given unit of time.
That is usually calculated, by multiplying the force by the distance.