Find the slope of the tangent to the graph at the point of interest.
They are all the points where the graph crosses (or touches) the x-axis.
if you are looking at a graph the y intercept is when the graph crosses the y axis and the x intercept is when the graph crosses the x axis. if you have a formula... plug zero in for x to find the y intercept, and plug zero in for y to find the x intercept
Select a set of x values and find the value of y or f(x) - depending on how the parabola is defined. These are the values that you need to graph.
find the constant of variation and the slope of the given line from the graph of y=2.5x
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There are many ways to graph 6.5t like using a bar graph, a pictograph or a line graph. When using a pictograph you will find the time and times it by how much.
Graph both and where they cross is the answer to both.
Modulus Guitars was founded by Geoff Gould in the 1970's. Modulus guitars can be difficult to find. One may be able to find a Modulus guitar on the online website Musician's Friend. It may also be possible to find used Modulus guitars for sale on a website such as eBay or Kijiji.
Ex: Find coordinates -2Y and +5X on your graph paper.
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The way you find modulus of a number on a scientific calculator depends on the model of calculator. On the TI-86, you use mod (x,y) or x mod y to find modulus.
To conduct Searle's apparatus experiment for Young's modulus, a thin wire is suspended and a weight is hung from the bottom of it. The extension of the wire is measured and a graph is plotted to determine the Young's modulus. By varying the weight and measuring the extension, the relationship between stress and strain can be determined.
One inaccuracy can be that the wire or material that you are using to find Young's Modulus has some impurities and there may be a slight variation in the cross sectional area so a shorter piece of that material should be used.
The modulus of elasticity is the slope of the linear portion of the curve (the elastic region).
Oh, honey, you want the angle of twist per meter of that shaft? Well, buckle up! First, calculate the shear stress using the formula τ = T*r/J, where T is the torque, r is the radius, and J is the polar moment of inertia. Then, use the formula φ = TL/GJ, where L is the length of the shaft, G is the modulus of rigidity, and J is the polar moment of inertia. Plug in those values and you'll have your angle of twist per meter. Easy peasy lemon squeezy!
You find the equation of a graph by finding an equation with a graph.