The National Accounts contain data on Gross Domestic Product.
dataset portal, as well as the International Financial Statistics dataset portal’s Data Tables tab.
Gross Domestic Product
Each year and quarter, the BEA calculates the country’s GDP. Every month, however, new GDP figures are released. Why? Because the BEA estimates GDP three times per quarter. The advance estimate is an early look based on the greatest information available at the time, and it comes roughly a month after the quarter ends. The second and third estimates each include additional source data that was not accessible the month before, resulting in increased accuracy.
More to know
The gross domestic product of the United States is in the trillions of dollars. The term “GDP” is frequently used to refer to a percentage figure. This is the rate at which real GDP changed from the prior quarter or year. To compare different periods, “real” or “chained” GDP data have been adjusted to exclude the impacts of inflation over time.
Estimates of “current-dollar” or “nominal” GDP are based on market prices during the measurement period.
Seasonal adjustments are made to GDP data to exclude the influence of yearly trends like winter weather, holidays, and industry output schedules. This guarantees that the remaining fluctuations in GDP better represent genuine economic activity patterns. The Bureau of Economic Analysis also publishes GDP numbers that are not seasonally adjusted.
Unless otherwise noted, quarterly GDP data are given at annual rates for simplicity of comparison.
GDP by State
The Bureau of Economic Analysis (BEA) calculates the value of products and services produced in each state and the District of Columbia on a quarterly and annual basis. The data includes breakdowns of the contributions of various industries to each of these economies.
GDP by County, Metro, and Other Areas
Annual GDP statistics are given for counties, metropolitan areas, and a few other statistical areas. They include the contributions of 34 industries to the local economy. In December 2019, the BEA released its first official GDP statistics for the nation’s 3,113 counties and county equivalents.
GDP for U.S. Territories
Annual GDP figures, including industry contributions, are issued for American Samoa, the Commonwealth of the Northern Mariana Islands, Guam, and the United States Virgin Islands.
GDP by Industry
These figures, which are published quarterly and annually, quantify each industry’s performance and contributions to the general economy, often known as “value added.” The data also includes gross output, employee compensation, gross operating surplus, and taxes for each industry.
Who determines the GDP?
A national government ministry in India is in charge of the massive responsibility of estimating GDP. This Ministry collects data on the entire number of goods and services, as well as their prices, with the cooperation of several government departments from all Indian states and union territories, and then assesses GDP.
In the United States, how is GDP calculated?
Gross domestic product (GDP) equals private consumption + gross private investment + government investment + government spending + (exports Minus imports).
GDP is usually computed using international standards by the country’s official statistical agency. GDP is calculated in the United States by the Bureau of Economic Analysis, which is part of the Commerce Department. The System of National Accounts, compiled in 1993 by the International Monetary Fund (IMF), the European Commission, and the Organization for Economic Cooperation and Development (OECD), is the international standard for estimating GDP.
Who generates GDP data?
GDP data is one of the three most prominent economic statistics that affect U.S. financial markets, and it is produced by the Bureau of Economic Analysis.
What is the current GDP of the United States?
Retail and wholesale trade industries led the increase in private inventory investment. The largest contributor to retail was inventory investment by automobile dealers. Increases in both products and services contributed to the increase in exports. Consumer products, industrial supplies and materials, and foods, feeds, and beverages were the biggest contributions to the growth in goods exports. Travel was the driving force behind the increase in service exports. The rise in PCE was mostly due to an increase in services, with health care, recreation, and transportation accounting for the majority of the increase. The increase in nonresidential fixed investment was mostly due to a rise in intellectual property items, which was partially offset by a drop in structures.
The reduction in federal spending was mostly due to lower defense spending on intermediate goods and services. State and local government spending fell as a result of lower consumption (driven by state and local government employee remuneration, particularly education) and gross investment (led by new educational structures). The rise in imports was mostly due to a rise in goods (led by non-food and non-automotive consumer goods, as well as capital goods).
After gaining 2.3 percent in the third quarter, real GDP increased by 6.9% in the fourth quarter. The fourth-quarter increase in real GDP was primarily due to an increase in exports, as well as increases in private inventory investment and PCE, as well as smaller decreases in residential fixed investment and federal government spending, which were partially offset by a decrease in state and local government spending. Imports have increased.
In the fourth quarter, current dollar GDP climbed 14.3% on an annual basis, or $790.1 billion, to $23.99 trillion. GDP climbed by 8.4%, or $461.3 billion, in the third quarter (table 1 and table 3).
In the fourth quarter, the price index for gross domestic purchases climbed 6.9%, compared to 5.6 percent in the third quarter (table 4). The PCE price index climbed by 6.5 percent, compared to a 5.3 percent gain in the previous quarter. The PCE price index grew 4.9 percent excluding food and energy expenses, compared to 4.6 percent overall.
Personal Income
In the fourth quarter, current-dollar personal income climbed by $106.3 billion, compared to $127.9 billion in the third quarter. Increases in compensation (driven by private earnings and salaries), personal income receipts on assets, and rental income partially offset a decline in personal current transfer receipts (particularly, government social assistance) (table 8). Following the end of pandemic-related unemployment programs, the fall in government social benefits was more than offset by a decrease in unemployment insurance.
In the fourth quarter, disposable personal income grew $14.1 billion, or 0.3 percent, compared to $36.7 billion, or 0.8 percent, in the third quarter. Real disposable personal income fell 5.8%, compared to a 4.3 percent drop in the previous quarter.
In the fourth quarter, personal savings totaled $1.34 trillion, compared to $1.72 trillion in the third quarter. In the fourth quarter, the personal saving rate (savings as a percentage of disposable personal income) was 7.4 percent, down from 9.5 percent in the third quarter.
GDP for 2021
In 2021, real GDP climbed 5.7 percent (from the 2020 annual level to the 2021 annual level), compared to a 3.4 percent fall in 2020. (table 1). In 2021, all major subcomponents of real GDP increased, led by PCE, nonresidential fixed investment, exports, residential fixed investment, and private inventory investment. Imports have risen (table 2).
PCE increased as both products and services increased in value. “Other” nondurable items (including games and toys as well as medications), apparel and footwear, and recreational goods and automobiles were the major contributors within goods. Food services and accommodations, as well as health care, were the most significant contributors to services. Increases in equipment (dominated by information processing equipment) and intellectual property items (driven by software as well as research and development) partially offset a reduction in structures in nonresidential fixed investment (widespread across most categories). The rise in exports was due to an increase in products (mostly non-automotive capital goods), which was somewhat offset by a drop in services (led by travel as well as royalties and license fees). The increase in residential fixed investment was primarily due to the development of new single-family homes. An increase in wholesale commerce led to an increase in private inventory investment (mainly in durable goods industries).
In 2021, current-dollar GDP expanded by 10.0 percent, or $2.10 trillion, to $22.99 trillion, compared to 2.2 percent, or $478.9 billion, in 2020. (tables 1 and 3).
In 2021, the price index for gross domestic purchases climbed by 3.9 percent, compared to 1.2 percent in 2020. (table 4). Similarly, the PCE price index grew 3.9 percent, compared to 1.2 percent in the previous quarter. The PCE price index climbed 3.3 percent excluding food and energy expenses, compared to 1.4 percent overall.
Real GDP rose 5.5 percent from the fourth quarter of 2020 to the fourth quarter of 2021 (table 6), compared to a 2.3 percent fall from the fourth quarter of 2019 to the fourth quarter of 2020.
From the fourth quarter of 2020 to the fourth quarter of 2021, the price index for gross domestic purchases grew 5.5 percent, compared to 1.4 percent from the fourth quarter of 2019 to the fourth quarter of 2020. The PCE price index climbed by 5.5 percent, compared to 1.2 percent for the year. The PCE price index increased 4.6 percent excluding food and energy, compared to 1.4 percent overall.
Source Data for the Advance Estimate
A Technical Note that is issued with the news release on BEA’s website contains information on the source data and major assumptions utilized in the advance estimate. Each version comes with a thorough “Key Source Data and Assumptions” file. Refer to the “Additional Details” section below for information on GDP updates.
Is GDP calculated per capita?
The Gross Domestic Product (GDP) per capita is calculated by dividing a country’s GDP by its total population. The table below ranks countries throughout the world by GDP per capita in Purchasing Power Parity (PPP), as well as nominal GDP per capita. Rather to relying solely on exchange rates, PPP considers the relative cost of living, offering a more realistic depiction of real income disparities.
What is a GDP example?
The Gross Domestic Product (GDP) is a metric that measures the worth of a country’s economic activities. GDP is the sum of the market values, or prices, of all final goods and services produced in an economy during a given time period. Within this seemingly basic concept, however, there are three key distinctions:
- GDP is a metric that measures the value of a country’s output in local currency.
- GDP attempts to capture all final commodities and services generated within a country, ensuring that the final monetary value of everything produced in that country is represented in the GDP.
- GDP is determined over a set time period, usually a year or quarter of a year.
Computing GDP
Let’s look at how to calculate GDP now that we know what it is. GDP is the monetary value of all the goods and services generated in an economy, as we all know. Consider Country B, which exclusively produces bananas and backrubs. In the first year, they produce 5 bananas for $1 each and 5 backrubs worth $6 each. This year’s GDP is (quantity of bananas X price of bananas) + (quantity of backrubs X price of backrubs), or (5 X $1) + (5 X $6) = $35 for the country. The equation grows longer as more commodities and services are created. For every good and service produced within the country, GDP = (quantity of A X price of A) + (quantity of B X price of B) + (quantity of whatever X price of whatever).
To compute GDP in the real world, the market values of many products and services must be calculated.
While GDP’s total output is essential, the breakdown of that output into the economy’s big structures is often just as important.
In general, macroeconomists utilize a set of categories to break down an economy into its key components; in this case, GDP is equal to the total of consumer spending, investment, government purchases, and net exports, as represented by the equation:
- The sum of household expenditures on durable commodities, nondurable items, and services is known as consumer spending, or C. Clothing, food, and health care are just a few examples.
- The sum of spending on capital equipment, inventories, and structures is referred to as investment (I).
- Machinery, unsold items, and homes are just a few examples.
- G stands for government spending, which is the total amount of money spent on products and services by all government agencies.
- Naval ships and government employee wages are two examples.
- Net exports, or NX, is the difference between foreigners’ spending on local goods and domestic residents’ expenditure on foreign goods.
- Net exports, to put it another way, is the difference between exports and imports.
GDP vs. GNP
GDP is just one technique to measure an economy’s overall output. Another technique is to calculate the Gross National Product, or GNP. As previously stated, GDP is the total value of all products and services generated in a country. GNP narrows the definition slightly: it is the total value of all goods and services generated by permanent residents of a country, regardless of where they are located. The important distinction between GDP and GNP is based on how production is counted by foreigners in a country vs nationals outside of that country. Output by foreigners within a country is counted in the GDP of that country, whereas production by nationals outside of that country is not. Production by foreigners within a country is not considered for GNP, while production by nationals from outside the country is. GNP, on the other hand, is the value of goods and services produced by citizens of a country, whereas GDP is the value of goods and services produced by a country’s citizens.
For example, in Country B (shown in ), nationals produce bananas while foreigners produce backrubs.
Figure 1 shows that Country B’s GDP in year one is (5 X $1) + (5 X $6) = $35.
Because the $30 from backrubs is added to the GNP of the immigrants’ home country, the GNP of country B is (5 X $1) = $5.
The distinction between GDP and GNP is theoretically significant, although it is rarely relevant in practice.
GDP and GNP are usually quite close together because the majority of production within a country is done by its own citizens.
Macroeconomists use GDP as a measure of a country’s total output in general.
Growth Rate of GDP
GDP is a great way to compare the economy at two different times in time. This comparison can then be used to calculate a country’s overall output growth rate.
Subtract 1 from the amount obtained by dividing the GDP for the first year by the GDP for the second year to arrive at the GDP growth rate.
This technique of calculating total output growth has an obvious flaw: both increases in the price of products produced and increases in the quantity of goods produced result in increases in GDP.
As a result, determining whether the volume of output is changing or the price of output is changing from the GDP growth rate is challenging.
Because of this constraint, an increase in GDP does not always suggest that an economy is increasing.
For example, if Country B produced 5 bananas value $1 each and 5 backrubs of $6 each in a year, the GDP would be $35.
If the price of bananas rises to $2 next year and the quantity produced remains constant, Country B’s GDP will be $40.
While the market value of Country B’s goods and services increased, the quantity of goods and services produced remained unchanged.
Because fluctuations in GDP are not always related to economic growth, this factor can make comparing GDP from one year to the next problematic.
Real GDP vs. Nominal GDP
Macroeconomists devised two types of GDP, nominal GDP and real GDP, to deal with the uncertainty inherent in GDP growth rates.
- The total worth of all produced goods and services at current prices is known as nominal GDP. This is the GDP that was discussed in the previous parts. When comparing sheer output with time rather than the value of output, nominal GDP is more informative than real GDP.
- The total worth of all produced goods and services at constant prices is known as real GDP.
- The prices used to calculate real GDP are derived from a certain base year.
- It is possible to compare economic growth from one year to the next in terms of production of goods and services rather than the market value of these products and services by leaving prices constant in the computation of real GDP.
- In this way, real GDP removes the effects of price fluctuations from year-to-year output comparisons.
Choosing a base year is the first step in computing real GDP. Use the GDP equation with year 3 numbers and year 1 prices to calculate real GDP in year 3 using year 1 as the base year. Real GDP equals (10 X $1) + (9 X $6) = $64 in this situation. The nominal GDP in year three is (10 X $2) + (9 X $6) = $74 in comparison. Because the price of bananas climbed from year one to year three, nominal GDP grew faster than actual GDP during this period.
GDP Deflator
Nominal GDP and real GDP convey various aspects of the shift when comparing GDP between years. Nominal GDP takes into account both quantity and price changes. Real GDP, on the other hand, just measures changes in quantity and is unaffected by price fluctuations. Because of this distinction, a third relevant statistic can be calculated once nominal and real GDP have been computed. The GDP deflator is the nominal GDP to real GDP ratio minus one for a particular year. The GDP deflator, in effect, shows how much of the change in GDP from a base year is due to changes in the price level.
Let’s say we want to calculate the GDP deflator for Country B in year 3 using as the base year.
To calculate the GDP deflator, we must first calculate both nominal and real GDP in year 3.
By rearranging the elements in the GDP deflator equation, nominal GDP may be calculated by multiplying real GDP and the GDP deflator.
This equation displays the distinct information provided by each of these output measures.
Changes in quantity are captured by real GDP.
Changes in the price level are captured by the GDP deflator.
Nominal GDP takes into account both price and quantity changes.
You can break down a change in GDP into its component changes in price level and change in quantities produced using nominal GDP, real GDP, and the GDP deflator.
GDP Per Capita
When describing the size and growth of a country’s economy, GDP is the single most helpful number. However, it’s crucial to think about how GDP relates to living standards. After all, a country’s economy is less essential to its residents than the level of living it delivers.
GDP per capita, calculated by dividing GDP by the population size, represents the average amount of GDP received by each individual, and hence serves as an excellent indicator of an economy’s level of life.
The value of GDP per capita is the income of a representative individual because GDP equals national income.
This figure is directly proportional to one’s standard of living.
In general, the higher a country’s GDP per capita, the higher its level of living.
Because of the differences in population between countries, GDP per capita is a more relevant indicator for measuring level of living than GDP.
If a country has a high GDP but a large population, each citizen may have a low income and so live in deplorable circumstances.
A country, on the other hand, may have a moderate GDP but a small population, resulting in a high individual income.
By comparing standard of living among countries using GDP per capita, the problem of GDP division among a country’s residents is avoided.
What method do you use to compute GDP loss?
Calculate the GDP loss if the equilibrium GDP level is $10,000, the unemployment rate is 9.8%, and the MPC is 0.75. As a result, we have a $10,000 equilibrium level value. With a 9.8% unemployment rate and a 0.750 MPC, the unemployment rate is 759.8 percent. GDP loss=(100) 10000+125= (0.073510000) +125= 735 +125 GDP loss=(100) 10000+125= (0.073510000) +125= 735 +125 GDP loss= (0.073510 GDP loss = $860GDP loss = $860GDP loss= $860GDP loss= $860GDP loss= $860GDP
What does GDP mean?
This article is part of Statistics for Beginners, a section of Statistics Described where statistical indicators and ideas are explained in a straightforward manner to make the world of statistics a little easier for pupils, students, and anybody else interested in statistics.
The most generally used measure of an economy’s size is gross domestic product (GDP). GDP can be calculated for a single country, a region (such as Tuscany in Italy or Burgundy in France), or a collection of countries (such as the European Union) (EU). The Gross Domestic Product (GDP) is the sum of all value added in a given economy. The value added is the difference between the value of the goods and services produced and the value of the goods and services required to produce them, also known as intermediate consumption. More about that in the following article.