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If were changed to how would the graph of the new function compare with the original?
The answer will depend on what was changed to what!
If y 2x plus 1 were changed to y x plus 1 how would the graph of the new function compare with the first one?
It would be less steep.
If y equals 5x - 2 were changed to y equals x - 2 how would the graph of the new function compare with the first one?
The graphs of y = 5x - 2 and y = x - 2 will have different slopes but with the same y intercepts.
What is the zero of a function and how does it relate to the functions graph?
A zero of a function is a point at which the value of the function is zero. If you graph the function, it is a point at which the graph touches the x-axis.
How is the function differentiable in graph?
If the graph of the function is a continuous line then the function is differentiable. Also if the graph suddenly make a deviation at any point then the function is not differentiable at that point . The slope of a tangent at any point of the graph gives the derivative of the function at that point.
If were changed to how would the graph of the new function compare with the original?
The answer will depend on what was changed to what!
If y12x-2 were changed to y12x how would the graph of the new function compare to the original?
The graph would be translated upwards by 2 units.
If y 2x plus 1 were changed to y x plus 1 how would the graph of the new function compare with the first one?
It would be less steep.
What will happen if y equals x plus 2 was changed to y equals x-1 what will the graph of the new function compare with the first one?
It would be less steep
If y12x - 2 were changed to y12x how would the graph of the new function compare with the original?
If you mean y = 12x -2 and y = 12x then both slopes will be parallel but with the changed function having its slope passing through the origin (0, 0)
If y x plus 5 were changed to y x plus 9 how would the graph of the new function compare with the first one?
If you mean y = x+5 changed to y = x+9 then the lines will be parallel to each other but with different y intercepts.
If y equals x plus 5 were changed to y equals x plus 9 how would the graph of the new function compare with the first?
Both lines would be parallel to each but the y intercept would change from 5 to 9
If y equals 5x - 2 were changed to y equals x - 2 how would the graph of the new function compare with the first one?
The graphs of y = 5x - 2 and y = x - 2 will have different slopes but with the same y intercepts.
How does the graph of an inequality compare to its related function?
The graph is a region of the space on one side or another of the related function. If the inequality is strict then the related function itself is not part of the solution; otherwise it is.
If the slop of the function y equal -3.5x plus 12.8 is changed to 1.5 then describe the graph of the new function?
The straight line in the graph goes 'uphill' from left to right
Is the first derivative of a function is a constant then its graph is?
A line. The derivative of a function is its slope. If the slope is a constant then the graph is a line.
Would the graph of the new function compare with the first one?
To compare the graphs of two functions, one would need to analyze their equations, key features, and transformations. If the new function involves modifications like shifts, stretches, or reflections of the first function, the shape and position of the graph will differ accordingly. Additionally, examining intersections, asymptotes, and overall behavior can provide insight into how the graphs relate. Without specific details about the functions, a precise comparison cannot be made.
