What happens to equilibrium when supply increases more than demand?

1. Use demand and supply to explain how equilibrium price and quantity are determined in a market.
2. Understand the concepts of surpluses and shortages and the pressures on price they generate.
3. Explain the impact of a change in demand or supply on equilibrium price and quantity.
4. Explain how the circular flow model provides an overview of demand and supply in product and factor markets and how the model suggests ways in which these markets are linked.

In this section we combine the demand and supply curves we have just studied into a new model. The model of demand and supply uses demand and supply curves to explain the determination of price and quantity in a market.

The logic of the model of demand and supply is simple. The demand curve shows the quantities of a particular good or service that buyers will be willing and able to purchase at each price during a specified period. The supply curve shows the quantities that sellers will offer for sale at each price during that same period. By putting the two curves together, we should be able to find a price at which the quantity buyers are willing and able to purchase equals the quantity sellers will offer for sale.

Figure 2.14 “The Determination of Equilibrium Price and Quantity” combines the demand and supply data introduced in Figure 2.1 “A Demand Schedule and a Demand Curve” and Figure 2.8 “A Supply Schedule and a Supply Curve” Notice that the two curves intersect at a price of $6 per pound—at this price the quantities demanded and supplied are equal. Buyers want to purchase, and sellers are willing to offer for sale, 25 million pounds of coffee per month. The market for coffee is in equilibrium. Unless the demand or supply curve shifts, there will be no tendency for price to change. The equilibrium price in any market is the price at which quantity demanded equals quantity supplied. The equilibrium price in the market for coffee is thus $6 per pound. The equilibrium quantity is the quantity demanded and supplied at the equilibrium price.

Figure 2.14 The Determination of Equilibrium Price and Quantity

When we combine the demand and supply curves for a good in a single graph, the point at which they intersect identifies the equilibrium price and equilibrium quantity. Here, the equilibrium price is $6 per pound. Consumers demand, and suppliers supply, 25 million pounds of coffee per month at this price.

With an upward-sloping supply curve and a downward-sloping demand curve, there is only a single price at which the two curves intersect. This means there is only one price at which equilibrium is achieved. It follows that at any price other than the equilibrium price, the market will not be in equilibrium. We next examine what happens at prices other than the equilibrium price.

Figure 2.15 “A Surplus in the Market for Coffee” shows the same demand and supply curves we have just examined, but this time the initial price is $8 per pound of coffee. Because we no longer have a balance between quantity demanded and quantity supplied, this price is not the equilibrium price. At a price of $8, we read over to the demand curve to determine the quantity of coffee consumers will be willing to buy—15 million pounds per month. The supply curve tells us what sellers will offer for sale—35 million pounds per month. The difference, 20 million pounds of coffee per month, is called a surplus. More generally, a surplus is the amount by which the quantity supplied exceeds the quantity demanded at the current price. There is, of course, no surplus at the equilibrium price; a surplus occurs only if the current price exceeds the equilibrium price.

Figure 2.15 A Surplus in the Market for Coffee

At a price of $8, the quantity supplied is 35 million pounds of coffee per month and the quantity demanded is 15 million pounds per month; there is a surplus of 20 million pounds of coffee per month. Given a surplus, the price will fall quickly toward the equilibrium level of $6.

A surplus in the market for coffee will not last long. With unsold coffee on the market, sellers will begin to reduce their prices to clear out unsold coffee. As the price of coffee begins to fall, the quantity of coffee supplied begins to decline. At the same time, the quantity of coffee demanded begins to rise. Remember that the reduction in quantity supplied is a movement along the supply curve—the curve itself does not shift in response to a reduction in price. Similarly, the increase in quantity demanded is a movement along the demand curve—the demand curve does not shift in response to a reduction in price. Price will continue to fall until it reaches its equilibrium level, at which the demand and supply curves intersect. At that point, there will be no tendency for price to fall further. In general, surpluses in the marketplace are short-lived. The prices of most goods and services adjust quickly, eliminating the surplus. Later on, we will discuss some markets in which adjustment of price to equilibrium may occur only very slowly or not at all.

Just as a price above the equilibrium price will cause a surplus, a price below equilibrium will cause a shortage. A shortage is the amount by which the quantity demanded exceeds the quantity supplied at the current price.

Figure 2.16 “A Shortage in the Market for Coffee” shows a shortage in the market for coffee. Suppose the price is $4 per pound. At that price, 15 million pounds of coffee would be supplied per month, and 35 million pounds would be demanded per month. When more coffee is demanded than supplied, there is a shortage.

Figure 2.16 A Shortage in the Market for Coffee

At a price of $4 per pound, the quantity of coffee demanded is 35 million pounds per month and the quantity supplied is 15 million pounds per month. The result is a shortage of 20 million pounds of coffee per month.

In the face of a shortage, sellers are likely to begin to raise their prices. As the price rises, there will be an increase in the quantity supplied (but not a change in supply) and a reduction in the quantity demanded (but not a change in demand) until the equilibrium price is achieved.

Figure 2.17 Changes in Demand and Supply

A change in demand or in supply changes the equilibrium solution in the model. Panels (a) and (b) show an increase and a decrease in demand, respectively; Panels (c) and (d) show an increase and a decrease in supply, respectively.

A change in one of the variables (shifters) held constant in any model of demand and supply will create a change in demand or supply. A shift in a demand or supply curve changes the equilibrium price and equilibrium quantity for a good or service. Figure 2.17 “Changes in Demand and Supply” combines the information about changes in the demand and supply of coffee presented in Figure 2.2 “An Increase in Demand” Figure 2.3 “A Reduction in Demand” Figure 2.9 “An Increase in Supply” and Figure 2.10 “A Reduction in Supply” In each case, the original equilibrium price is $6 per pound, and the corresponding equilibrium quantity is 25 million pounds of coffee per month. Figure 2.17 “Changes in Demand and Supply” shows what happens with an increase in demand, a reduction in demand, an increase in supply, and a reduction in supply. We then look at what happens if both curves shift simultaneously. Each of these possibilities is discussed in turn below.

An increase in demand for coffee shifts the demand curve to the right, as shown in Panel (a) of Figure 2.17 “Changes in Demand and Supply”. The equilibrium price rises to $7 per pound. As the price rises to the new equilibrium level, the quantity supplied increases to 30 million pounds of coffee per month. Notice that the supply curve does not shift; rather, there is a movement along the supply curve.

Demand shifters that could cause an increase in demand include a shift in preferences that leads to greater coffee consumption; a lower price for a complement to coffee, such as doughnuts; a higher price for a substitute for coffee, such as tea; an increase in income; and an increase in population. A change in buyer expectations, perhaps due to predictions of bad weather lowering expected yields on coffee plants and increasing future coffee prices, could also increase current demand.

Panel (b) of Figure 2.17 “Changes in Demand and Supply” shows that a decrease in demand shifts the demand curve to the left. The equilibrium price falls to $5 per pound. As the price falls to the new equilibrium level, the quantity supplied decreases to 20 million pounds of coffee per month.

Demand shifters that could reduce the demand for coffee include a shift in preferences that makes people want to consume less coffee; an increase in the price of a complement, such as doughnuts; a reduction in the price of a substitute, such as tea; a reduction in income; a reduction in population; and a change in buyer expectations that leads people to expect lower prices for coffee in the future.

An increase in the supply of coffee shifts the supply curve to the right, as shown in Panel (c) of Figure 2.17 “Changes in Demand and Supply”. The equilibrium price falls to $5 per pound. As the price falls to the new equilibrium level, the quantity of coffee demanded increases to 30 million pounds of coffee per month. Notice that the demand curve does not shift; rather, there is movement along the demand curve.

Possible supply shifters that could increase supply include a reduction in the price of an input such as labor, a decline in the returns available from alternative uses of the inputs that produce coffee, an improvement in the technology of coffee production, good weather, and an increase in the number of coffee-producing firms.

Panel (d) of Figure 2.17 “Changes in Demand and Supply” shows that a decrease in supply shifts the supply curve to the left. The equilibrium price rises to $7 per pound. As the price rises to the new equilibrium level, the quantity demanded decreases to 20 million pounds of coffee per month.

Possible supply shifters that could reduce supply include an increase in the prices of inputs used in the production of coffee, an increase in the returns available from alternative uses of these inputs, a decline in production because of problems in technology (perhaps caused by a restriction on pesticides used to protect coffee beans), a reduction in the number of coffee-producing firms, or a natural event, such as excessive rain.

Figure 2.18

You are likely to be given problems in which you will have to shift a demand or supply curve.

Suppose you are told that an invasion of pod-crunching insects has gobbled up half the crop of fresh peas, and you are asked to use demand and supply analysis to predict what will happen to the price and quantity of peas demanded and supplied. Here are some suggestions.

Put the quantity of the good you are asked to analyze on the horizontal axis and its price on the vertical axis. Draw a downward-sloping line for demand and an upward-sloping line for supply. The initial equilibrium price is determined by the intersection of the two curves. Label the equilibrium solution. You may find it helpful to use a number for the equilibrium price instead of the letter “P.” Pick a price that seems plausible, say, 79¢ per pound. Do not worry about the precise positions of the demand and supply curves; you cannot be expected to know what they are.

Step 2 can be the most difficult step; the problem is to decide which curve to shift. The key is to remember the difference between a change in demand or supply and a change in quantity demanded or supplied. At each price, ask yourself whether the given event would change the quantity demanded. Would the fact that a bug has attacked the pea crop change the quantity demanded at a price of, say, 79¢ per pound? Clearly not; none of the demand shifters have changed. The event would, however, reduce the quantity supplied at this price, and the supply curve would shift to the left. There is a change in supply and a reduction in the quantity demanded. There is no change in demand.

Next check to see whether the result you have obtained makes sense. The graph in Step 2 makes sense; it shows price rising and quantity demanded falling.

It is easy to make a mistake such as the one shown in the third figure of this Heads Up! One might, for example, reason that when fewer peas are available, fewer will be demanded, and therefore the demand curve will shift to the left. This suggests the price of peas will fall—but that does not make sense. If only half as many fresh peas were available, their price would surely rise. The error here lies in confusing a change in quantity demanded with a change in demand. Yes, buyers will end up buying fewer peas. But no, they will not demand fewer peas at each price than before; the demand curve does not shift.

As we have seen, when either the demand or the supply curve shifts, the results are unambiguous; that is, we know what will happen to both equilibrium price and equilibrium quantity, so long as we know whether demand or supply increased or decreased. However, in practice, several events may occur at around the same time that cause both the demand and supply curves to shift. To figure out what happens to equilibrium price and equilibrium quantity, we must know not only in which direction the demand and supply curves have shifted but also the relative amount by which each curve shifts. Of course, the demand and supply curves could shift in the same direction or in opposite directions, depending on the specific events causing them to shift.

For example, all three panels of Figure 2.19 “Simultaneous Decreases in Demand and Supply” show a decrease in demand for coffee (caused perhaps by a decrease in the price of a substitute good, such as tea) and a simultaneous decrease in the supply of coffee (caused perhaps by bad weather). Since reductions in demand and supply, considered separately, each cause the equilibrium quantity to fall, the impact of both curves shifting simultaneously to the left means that the new equilibrium quantity of coffee is less than the old equilibrium quantity. The effect on the equilibrium price, though, is ambiguous. Whether the equilibrium price is higher, lower, or unchanged depends on the extent to which each curve shifts.

Figure 2.19 Simultaneous Decreases in Demand and Supply

Both the demand and the supply of coffee decrease. Since decreases in demand and supply, considered separately, each cause equilibrium quantity to fall, the impact of both decreasing simultaneously means that a new equilibrium quantity of coffee must be less than the old equilibrium quantity. In Panel (a), the demand curve shifts farther to the left than does the supply curve, so equilibrium price falls. In Panel (b), the supply curve shifts farther to the left than does the demand curve, so the equilibrium price rises. In Panel (c), both curves shift to the left by the same amount, so equilibrium price stays the same.

If the demand curve shifts farther to the left than does the supply curve, as shown in Panel (a) of Figure 2.19 “Simultaneous Decreases in Demand and Supply”, then the equilibrium price will be lower than it was before the curves shifted. In this case the new equilibrium price falls from $6 per pound to $5 per pound. If the shift to the left of the supply curve is greater than that of the demand curve, the equilibrium price will be higher than it was before, as shown in Panel (b). In this case, the new equilibrium price rises to $7 per pound. In Panel (c), since both curves shift to the left by the same amount, equilibrium price does not change; it remains $6 per pound.

Regardless of the scenario, changes in equilibrium price and equilibrium quantity resulting from two different events need to be considered separately. If both events cause equilibrium price or quantity to move in the same direction, then clearly price or quantity can be expected to move in that direction. If one event causes price or quantity to rise while the other causes it to fall, the extent by which each curve shifts is critical to figuring out what happens. Figure 2.20 “Simultaneous Shifts in Demand and Supply” summarizes what may happen to equilibrium price and quantity when demand and supply both shift.

Figure 2.20 Simultaneous Shifts in Demand and Supply

If simultaneous shifts in demand and supply cause equilibrium price or quantity to move in the same direction, then equilibrium price or quantity clearly moves in that direction. If the shift in one of the curves causes equilibrium price or quantity to rise while the shift in the other curve causes equilibrium price or quantity to fall, then the relative amount by which each curve shifts is critical to figuring out what happens to that variable.

As demand and supply curves shift, prices adjust to maintain a balance between the quantity of a good demanded and the quantity supplied. If prices did not adjust, this balance could not be maintained.

Notice that the demand and supply curves that we have examined in this chapter have all been drawn as linear. This simplification of the real world makes the graphs a bit easier to read without sacrificing the essential point: whether the curves are linear or nonlinear, demand curves are downward sloping and supply curves are generally upward sloping. As circumstances that shift the demand curve or the supply curve change, we can analyze what will happen to price and what will happen to quantity.

Implicit in the concepts of demand and supply is a constant interaction and adjustment that economists illustrate with the circular flow model. The circular flow model provides a look at how markets work and how they are related to each other. It shows flows of spending and income through the economy.

A great deal of economic activity can be thought of as a process of exchange between households and firms. Firms supply goods and services to households. Households buy these goods and services from firms. Households supply factors of production—labor, capital, and natural resources—that firms require. The payments firms make in exchange for these factors represent the incomes households earn.

The flow of goods and services, factors of production, and the payments they generate is illustrated in Figure 2.21 “The Circular Flow of Economic Activity”. This circular flow model of the economy shows the interaction of households and firms as they exchange goods and services and factors of production. For simplicity, the model here shows only the private domestic economy; it omits the government and foreign sectors.

Figure 2.21 The Circular Flow of Economic Activity

This simplified circular flow model shows flows of spending between households and firms through product and factor markets. The inner arrows show goods and services flowing from firms to households and factors of production flowing from households to firms. The outer flows show the payments for goods, services, and factors of production. These flows, in turn, represent millions of individual markets for products and factors of production.

The circular flow model shows that goods and services that households demand are supplied by firms in product markets. The exchange for goods and services is shown in the top half of Figure 2.21 “The Circular Flow of Economic Activity”. The bottom half of the exhibit illustrates the exchanges that take place in factor markets. factor markets are markets in which households supply factors of production—labor, capital, and natural resources—demanded by firms.

Our model is called a circular flow model because households use the income they receive from their supply of factors of production to buy goods and services from firms. Firms, in turn, use the payments they receive from households to pay for their factors of production.

The demand and supply model developed in this chapter gives us a basic tool for understanding what is happening in each of these product or factor markets and also allows us to see how these markets are interrelated. In Figure 2.21 “The Circular Flow of Economic Activity”, markets for three goods and services that households want—blue jeans, haircuts, and apartments—create demands by firms for textile workers, barbers, and apartment buildings. The equilibrium of supply and demand in each market determines the price and quantity of that item. Moreover, a change in equilibrium in one market will affect equilibrium in related markets. For example, an increase in the demand for haircuts would lead to an increase in demand for barbers. Equilibrium price and quantity could rise in both markets. For some purposes, it will be adequate to simply look at a single market, whereas at other times we will want to look at what happens in related markets as well.

In either case, the model of demand and supply is one of the most widely used tools of economic analysis. That widespread use is no accident. The model yields results that are, in fact, broadly consistent with what we observe in the marketplace. Your mastery of this model will pay big dividends in your study of economics.

• The equilibrium price is the price at which the quantity demanded equals the quantity supplied. It is determined by the intersection of the demand and supply curves.
• A surplus exists if the quantity of a good or service supplied exceeds the quantity demanded at the current price; it causes downward pressure on price. A shortage exists if the quantity of a good or service demanded exceeds the quantity supplied at the current price; it causes upward pressure on price.
• An increase in demand, all other things unchanged, will cause the equilibrium price to rise; quantity supplied will increase. A decrease in demand will cause the equilibrium price to fall; quantity supplied will decrease.
• An increase in supply, all other things unchanged, will cause the equilibrium price to fall; quantity demanded will increase. A decrease in supply will cause the equilibrium price to rise; quantity demanded will decrease.
• To determine what happens to equilibrium price and equilibrium quantity when both the supply and demand curves shift, you must know in which direction each of the curves shifts and the extent to which each curve shifts.
• The circular flow model provides an overview of demand and supply in product and factor markets and suggests how these markets are linked to one another.

As we all know – oil is an essential input used to produce gasoline, the price of oil is a key factor that determines gasoline prices. Indeed, as statistical data show, gas prices follow oil prices very closely. The importance of oil, however, expands far beyond that. In fact, oil is used to produce nearly everything, from heating and electricity generation to plastics, fertilizers, roofing, clothing, aspirin, and guitar strings. To satisfy the demand for all those products, the world produces about 100 million barrels (3.2 billion gallons) of oil per day. No wonder that fluctuations in oil prices affect nearly all industries and may even alter the global macroeconomic situation. Because of such profound effects of oil prices on the global economy, it is important to examine the past trends in oil prices so that we could better predict how they might change in the future. And oil prices do tend to fluctuate substantially. Take a look at Figure 2.22,

Figure 2.22 -Crude oil prices in 2012–2017

which shows how the “spot” prices of crude oil changed over the last five years. Particularly remarkable is the steep slump from about $112 per barrel to about $31 per barrel that occurred over the period from June 2014 to January 2016. It is also worthy of note that despite this 72% price drop, the consumption of oil during this period increased rather modestly: from about 94 million to about 96 million barrels per day, i.e. by only about 2%.10 What caused such a dramatic drop in the price of oil accompanied by only a slight increase in quantity? The demand and supply model discussed in this chapter will help us answer this question.

Let’s go through the four steps we’ve suggested in the previous section to help us better organize our analysis of events influencing the market for oil. First, we need to define the market we want to analyze. Since our purpose is to explain a trend in the world price of oil, not oil prices in particular countries or regions, it makes sense to examine the market for oil as a global market.11 The suppliers in this global market are all oil producers around the world, and the buyers are all world’s consumers of oil, which are predominantly businesses that use oil to produce other goods.

One important question is whether the world market for oil fits our definition of a competitive market, i.e. one where no individual seller or buyer can influence the price. Recall that the two conditions necessary for the buyers and seller to take the market price as given are (1) the product is standardized, and (2) each buyer and seller holds a very small fraction of the market, so the influence of an individual buyer or seller on the price is negligible. The first condition is certainly present, since crude oil is a standardized product (commodity). The second one does not strictly hold. The reason is that about 40% of the world’s crude oil is produced by the Organization of the Petroleum Exporting Countries (OPEC), which controls (or at least tries to) oil production in its member countries by setting production targets.

Because OPEC accounts for such a large share of the world’s market for oil, it can affect its price. Historically, crude oil prices have risen when OPEC reduced its production targets. In our demand and supply model, we can reflect this OPEC’s influence by shifting the world oil supply curve accordingly. However, OPEC’s ability to shift the world supply curve cannot change the law of supply. That is, when the price of oil rises due to OPEC’s production cuts, other oil producers have the incentive to increase their output, since it becomes more profit-able to produce more oil even if it results in higher costs. Thus, we can use the competitive demand and supply model to analyze the world market for oil.
The second step is to define the initial market equilibrium. We will start from June 2014, when the equilibrium price of oil was at its peak of about $112 per barrel and its equilibrium quantity was about 94 million barrels per day.

In Figure 2.23, D14 and S14 are, respectively, the demand curve and the supply curve in June 2014, so point E14 marks the initial equilibrium. The third step is to find the new equilibrium. Note, however, that our analysis here is a little different from what we’ve done before: we al-ready know that in January 2016 the equilibrium price of oil was about $31 per barrel and the equilibrium quantity was about 96 million barrels per day. What we need to figure out is which curve shifted in which direction, as we want to explain how the market got there.

Figure 2.23 – The world market for oil, June 2014

Let’s start with the supply side. Most remarkable there is the phenomenal growth of oil production in the United States. The U.S. oil boom started in 2008, when the first well was drilled into a shale. Since then, with the help of horizontal drilling and hydraulic fracturing (commonly known as fracking), billions of additional barrels of oil have been produced. Between 2008 and 2015, U.S. oil production almost doubled, reaching 9.4 million barrels per day and threatening to surpass Saudi Arabia as the world’s largest producer of oil. In this situation, the OPEC countries faced a tough choice: cut their oil production to prop up the price, as they’ve done in the past, or maintain their output and let the price continue to fall with the purpose of driving the producers of the more costly shale oil—in the United States and everywhere else—out of business. Quite surprisingly, OPEC, led by Saudi Arabia, decided not just to go with the latter choice, but increase their oil production substantially in the hope to win the global battle for market share. The U.S. shale oil producers, however, did not back off. Armed with new drilling and other cost saving technologies, they continued to pump oil at near-record levels.

Figure 2.24 – The fall in the price of oil explained

The result was a large rightward shift of the supply curve in the world market for oil as shown in Figure 2.24, where S16 is the supply curve in January 2016. But what happened on the buyers’ side of the market? Because, as we noted earlier, oil is used to produce nearly every product, the demand for it is largely driven by the demand for all those products, which increases when economies are growing. From this perspective, although the global demand for oil increased, driven mainly by continuing economic growth in India and China, the increase was rather modest. China’s growth was shaky, and in Europe and the United States the annual rates of growth were below 3%. Thus, although the world’s demand curve for oil shifted rightward (from D14 to D16 in Figure 2.24), the effect of the demand shift was much smaller than that of the supply shift.

As you can see in Figure 2.24, since the downward effect on the price of the increased supply was much greater than the upward effect on it of the increased demand, the price dropped dramatically, from $112 per barrel in the June 2014 equilibrium (E14) to $31 per barrel in the January 2016 equilibrium (E16).

You might be wondering, however, why such a substantial drop in the price of oil resulted in only a relatively small increase in its quantity. Given that the rightward shifts of both supply and demand curves worked in the same direction, reinforcing each other to increase the equilibrium quantity, wouldn’t we expect a much greater quantity increase? The answer to the this question is that, first, the shift in the demand curve was rather small. Second, along the new same demand curve (D16) the responsiveness of the quantity of oil demanded to a change in price was very small. Economists call it a very price inelastic demand. We discuss the economic concept of the price elasticity of demand and the reasons why the demand for oil is very price inelastic in Chapter 3.

Source: Ogloblin, Constantin; Brown, John; King, John; and Levernier, William, “Microeconomics for Business” (2018). Business Administration, Management, and Economics Open Textbooks. 6.