Macroeconomics/Aggregate Supply

Introduction

Aggregate supply (AS) curve shows the relationship between $P$ of the economy and $Y$ supplied of the economy. SRAS is the AS curve in SR, and LRAS is the AS curve in LR. Template:Colored definition The following proposition states the shape of SRAS and LRAS curves. Template:Colored proposition

Proof.

SRAS is upward sloping

Template:Colored em: prices (e.g. input cost) and nominal wages ( $w^{n}$ ) do not respond quickly to $Δ P$

e.g. $w^{n}$ may be sticky because of contract in which the $w^{n}$ may be fixed for a certain period. Therefore, when output price increases, while the production cost, which includes the $w^{n}$ paid, is sticky and $↑$ more slowly than output price, the profitability $↑$ . Therefore, firms are willing to supply more goods and services, which causes $↑$ in $Y$ supplied.

slow $w^{n}$ adjustment

e.g. salary may be reviewed Template:Colored em only, and firms may dislike cutting $w^{n}$

menu costs making some prices sticky: it costs firms money to change prices stated at the menu, so slight change in price may not be worthy, causing the price to be sticky, then having the effects from sticky price theory

e.g. printing cost

misperception theory: Some firms may fail to accurately predict $Δ P$ . Therefore, they may be slow to $↑$ its output prices when $P ↑$ . Consequently, customers find that their goods and services are cheaper, and buy more. Then, firms' sale $↑$ , and therefore they $↑$ their production because of this signal

LRAS is vertical

$Y$ in LR, which is known as potential GDP ( $Y^{p}$ ) (or full employment GDP), is determined by the number of workers ( $N$ ), capital stocks ( $K$ ) and the available technology. These factors are not affected by $P$ . Therefore, $Y = Y^{p}$ for each $P$ , and thus LRAS curve is vertical.

$◻$

We can see from above that LRAS curve is vertically located at $Y^{p}$ , and $Y$ supplied is not affected by $Δ P$ .

Illustration of plotted SRAS and LRAS curves:

P
| SRAS LRAS
|   /   | 
|  /    |
| /     |
|------------ Y

Movements of SRAS curve

A change in $P$ not caused by factors that would otherwise affect SRAS results in movement Template:Colored em a stationary SRAS curve. However, some factors Template:Colored em SRAS curve.

Illustration of $↗$ movement Template:Colored em SRAS curve:

    P (GDP deflator, 2022=100)
    |     / SRAS
110 |----*      
    |   /|    
100 |--* |   
    | /| |   
    |------------ Y (trillion 2022 USD)
      20 25

Illustration of $↘$ Template:Colored em of SRAS curve from $S R A S_{0}$ to $S R A S_{1}$ :

    P (GDP deflator, 2022=100)
    |  SRAS_0
    |     /  / SRAS_1   
    |    /  /   
100 |---/--/  
    |  /| /| 
    | / |/ | 
    |------------ Y (trillion 2022 USD)
        20 25

Shift of SRAS curve

Template:Colored proposition

Proof.

$N, K ↑ (↓) \Rightarrow Y supplied ↑ (↓) for each P \Rightarrow S R A S ↘ (↖)$
available technology $↑ (↓ (unlikely)) \Rightarrow$ productivity $↑ (↓) \Rightarrow production cost ↓ (↑) \Rightarrow S R A S ↘ (↖)$
$P^{e} ↑ (↓) \Rightarrow workers' demand for w^{n} ↑ (↓) \Rightarrow production cost ↑ (↓) \Rightarrow S R A S ↖ (↘)$
positive (negative) supply shock $\Rightarrow production cost ↑ (↓) \Rightarrow S R A S ↘ (↖)$
adjustments to errors in past $P^{e}$ :

$P ↑$ unexpectedly: workers and firms realize that they Template:Colored em $P \Rightarrow P^{e} ↑ (adjustment) \Rightarrow S R A S ↖ (↘)$
$P ↓$ unexpectedly: workers and firms realize that they Template:Colored em $P \Rightarrow P^{e} ↓ (adjustment) \Rightarrow S R A S ↘ (↖)$

$◻$

Movements of LRAS curve

Since $Y = Y^{p}$ for each $P$ , changing $P$ does not have any effect on LRAS curve. Therefore, arbitrary $Δ P$ would only cause movement Template:Colored em a stationary LRAS curve ( $Δ P$ may be caused by various reasons). However, some factors Template:Colored em LRAS curve by changing $Y^{p}$ .

Illustration of $↑$ movement Template:Colored em LRAS curve:

    P (GDP deflator, 2022=100)
    |     | LRAS
110 |-----*
    |     |
100 |-----*
    |     |
    |-------------- Y (trillion 2022 USD)
         30

Illustration of $\to$ Template:Colored em of LRAS curve from $L R A S_{0}$ to $L R A S_{1}$ :

    P (GDP deflator, 2022=100)
    |   LRAS_0  LRAS_1
    |      |    |
    |      |    |
100 |------|----| 
    |      |    |
    |----------------- Y (trillion 2022 USD)
          30    35

Shift of LRAS curve

Template:Colored proposition

Proof. $N, K$ or available technology $↑ (↓) \Rightarrow Y^{p} ↑ (↓) \Rightarrow L R A S \to (\leftarrow)$

$◻$

Functions of aggregate supply (optional)

There are different functions of short run aggregate supply based on different models. We will give one example in the following. In the short run, a function which describes the aggregate supply which is known as Lucas aggregate supply function is

Y = f (P - P^{e}) = Y^{p} + α (P - P^{e})

in which coefficient $α$ is a positive real number. This is a function of $P - P^{e}$ which is known as 'price surprise'.

In the long run, the level of real GDP simply equals its natural level, i.e.

Y = Y^{p},

and therefore LRAS curve is vertical. Template:BookCat

Macroeconomics/Aggregate Supply

Contents

Introduction

Movements of SRAS curve

Shift of SRAS curve

Movements of LRAS curve

Shift of LRAS curve

Functions of aggregate supply (optional)

Navigation menu

Macroeconomics/Aggregate Supply

Introduction

Movements of SRAS curve

Shift of SRAS curve

Movements of LRAS curve

Shift of LRAS curve

Functions of aggregate supply (optional)

Navigation menu

Search