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Illustrating Complex Relationships
• In economics you will often see a complex set of relations represented graphically.
• You will use graphs to make interpretations about what is happening as variables in a relationship change.
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Changes in the supply of corn
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• A change in one or more of the determinants of supply will cause a change in supply.
• An increase in supply shifts the supply curve to the right as from S1 to S2.
• A decrease in supply is shown graphically as a shift of the curve to the left, as from S1 to S3.
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• A change in the quantity supplied is caused by a change in the price of the product as is shown by a movement from one point to another--as from a to b--on a fixed supply curve.
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Market Equilibrium
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• The market equilibrium price and quantity comes at the intersection of supply and demand curves.
• At a price of $3 at point C, firms willingly supply what consumers willingly demand.
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• When price is too low (say $2), quantity demanded exceeds quantity supplied, shortages occur, and prices are driven up to equilibrium.
• What occurs at a price of $4?
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The skills you will learn in this book are to:
• Describe how changing the y-intercept of a line affects the graph of a line.
• Describe how changing the slope of a line affects the graph of a line.
• Describe what has happened to an equation after a line on a graph has shifted.
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• Identify the intersection of two lines on a graph.
• Describe what happens to the x and y coordinate values of intersecting lines after a shift in a line on the graph.
• Identify the Point of Tangency on a curve.
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• Determine whether a line is a tangent line.
• Calculate the slope at a point on a curve.
• Determine whether the slope at a point on a curve is positive, negative, zero, or infinity.
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• Identify maximum and minimum points on a curve.
• Determine whether a curve does or does not have maximum and minimum points.
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Analyzing Lines on a Graph
• After reviewing this section you will be able to: – Describe how changing the y-intercept of a
line affects the graph of a line. – Describe how changing the slope of a line
affects the graph of a line. – Describe what has happened to an equation
after a line on a graph has shifted.
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The Equation of a line
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• The slope is used to tell us how much one variable (y) changes in relation to the change in another variable (x).
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• The constant labeled "a" in the equation is the y-intercept.
• The y-intercept is the point at which the line crosses the y-axis.
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Comparing Lines on a Graph
• By looking at this graph, we can see that the cost of our plain pizza is $7.00, and the cost per topping is our slope, 75 cents.
• This line has the equation of y = 7.00 + .75x.
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Shift Due to Change in y-intercept
• In the graph at the right, line P shifts from its initial position P0 to P1.
• Only the y-intercept has changed.
• The equation for P0 is y = 7.00 + .75x, and the equation for P1 is y = 8.00 + .75x.
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Shift Due to Change in Slope
• In the graph at the right, line P shifts from its initial position P0 to P1.
• Line P1 is steeper than the line P0. This means that the slope of the equation has gone up.
• The equation for P0 is y = 7.00 + .75x, and the equation for P1 is y = 7.00 + .x.
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Identifying the Intersection of Lines
• After reviewing this section you will be able to: – Identify the intersection of two lines on a
graph. – Describe what happens to the x and y
coordinate values of intersecting lines after a shift in a line on the graph.
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Intersection of Two Lines
• Many times in the study of economics we have the situation where there is more than one relationship between the x and y variables.
• You'll find this type of occurrence often in your study of supply and demand.
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• In this graph, there are two relationships between the x and y variables; one represented by the straight line AC and the other by straight line WZ.
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• In one case, the two lines have the same (x, y) values simultaneously.
• This is where the two lines RT and JK intersect or cross.
• The intersection occurs at point E, which has the coordinates (2, 4).
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Examining The Shift of a Line
• In any situation where you are given a shift in a line: – identify both the initial and final points of
intersection, then – compare the coordinates of the two.
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Before the Shift
• This graph contains the two lines R and S, which intersect at point A (2, 3).
• Lines shifts to the right.
• What happens to the intersection of the two lines if one of the lines shifts?
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After the Shift
• On the graph below, line S0 is our original line S.
• Lines S1 represents our new S after it has shifted.
• The new point of intersection between R and S is now point B (3, 4).
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Example
• Compare the points A (2, 3) and B (3, 4) on this graph.
• The x-coordinate changed from 2 to 3.
• The y-coordinate changed from 3 to 4.
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Nonlinear Relationships
• After reviewing this unit, you will be able to: – Identify the Point of Tangency on a curve. – Determine whether a line is a tangent line. – Calculate the slope at a point on a curve. – Determine whether the slope at a point on
a curve is positive, negative, zero, or infinity.
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– Identify maximum and minimum points on a curve
– Determine whether a curve does or does not have maximum and minimum points.
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Introduction
• Most relationships in economics are, unfortunately, not linear.
• Each unit change in the x variable will not always bring about the same change in the y variable.
• The graph of this relationship will be a curve instead of a straight line.
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• This graph shows a linear relationship between x and y.
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• This graph below shows a nonlinear relationship between x and y.
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Determining the Slope of a Curve
• One of the differences between the slope of a straight line and the slope of a curve is that: – the slope of a straight line is constant, – while the slope of a curve changes from p
oint to point.
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• To find the slope of a line you need to: – Identify two points on
the line. – Select one to be (x1,
y1) and the other to be (x2, y2).
– Use the equation:
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• From point A (0, 2) to point B (1, 2.5)
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• From point B (1, 2.5) to point C (2, 4)
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• From point C (2, 4) to point D (3, 8)
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• The slope of the curve changes as you move along it.
• For this reason, we measure the slope of a curve at just one point.
• For example, instead of measuring the slope as the change between any two points, we measure the slope of the curve at a single point (at A or C).
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Tangent Line
• A tangent is a straight line that touches a curve at a single point and does not cross through it.
• The point where the curve and the tangent meet is called the point of tangency.
• Both of the figures below show a tangent line to the curve.
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• This curve has a tangent line to the curve with point A being the point of tangency.
• In this case, the slope of the tangent line is positive.
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• This curve has a tangent line to the curve with point A being the point of tangency.
• In this case, the slope of the tangent line is negative.
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• The line on this graph crosses the curve in two places.
• This line is not tangent to the curve.
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• The slope of a curve at a point is equal to the slope of the straight line that is tangent to the curve at that point.
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Example
• What is the slope of the curve at point A?
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• The slope of the curve at point A is equal to the slope of the straight line BC.
• By finding the slope of the straight line BC, we have found the slope of the curve at point A.
• The slope at point A is 1/2, or .5.• This is the slope of the curve only at point A.
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Slope of a Curve: Positive, Negative, or Zero?
• If the line is sloping up to the right, the slope is positive (+).
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• If the line is sloping down to the right, the slope is negative (-).
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• Horizontal lines have a slope of 0.
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Slope of a Curve: Positive, Negative, or Zero?
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• Both graphs show curves sloping upward from left to right.
• As with upward sloping straight lines, we can say that generally the slope of the curve is positive.
• While the slope will differ at each point on the curve, it will always be positive.
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• In the graphs above, both of the curves are downward sloping.
• Curves that are downward sloping also have negative slopes.
• We know, of course, that the slope changes from point to point on a curve, but all of the slopes along these two curves will be negative.
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• In general, to determine if the slope of the curve at any point is positive, negative, or zero you draw in the line of tangency at that point.
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Example
• A, B, and C are three points on the curve.
• The tangent line at each of these points is different.
• Each tangent has a positive slope; therefore, the curve has a positive slope at points A, B, and C.
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• A, B, and C are three points on the curve.
• The tangent line at each of these points is different.
• Each tangent has a negative slope since it’s downward sloping; therefore, the curve has a negative slope at points A, B, and C.
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• In this example, our curve has a:
• positive slope at points A, B, and F,
• a negative slope at D, and
• at points C and E the slope of the curve is zero.
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Maximum and Minimum Points of Curves
• In economics, we can draw interesting conclusions from points on graphs where the highest or lowest values are observed.
• We refer to these points as maximum and minimum points.
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• Maximum and minimum points on a graph are found at points where the slope of the curve is zero.
• A maximum point is the point on the curve with the highest y-coordinate and a slope of zero.
• A minimum point is the point on the curve with the lowest y-coordinate and a slope of zero.
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Maximum Point
• Point A is at the maximum point for this curve.
• Point A is at the highest point on this curve.
• It has a greater y-coordinate value than any other point on the curve and has a slope of zero.
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Minimum Point
• Point A is at the minimum point for this curve.
• Point A is at the lowest point on this curve.
• It has a lower y-coordinate value than any other point on the curve and has a slope of zero.
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Example
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• The curve has a slope of zero at only two points, B and C.
• Point B is the maximum. At this point, the curve has a slope of zero with the largest y-coordinate.
• Point C is the minimum. At this point, the curve has a slope of zero with the smallest y-coordinate.
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• We can have curves that have no maximum and minimum points.
• On this curve, there is no point where the slope is equal to zero.
• This means, using the definition given above, the curve has no maximum or minimum points on it.
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