Table Data - 90% Confidence Interval Lower Bound of Estimate of Median Household Income for Harding County, SD

Title 90% Confidence Interval Lower Bound of Estimate of Median Household Income for Harding County, SD
Series ID MHICILBSD46063A052NCEN
Source U.S. Census Bureau
Release Small Area Income and Poverty Estimates
Seasonal Adjustment Not Seasonally Adjusted
Frequency Annual
Units Dollars
Date Range 1989-01-01 to 2024-01-01
Last Updated 2026-02-09 7:08 PM CST
Notes The U.S. Census Bureau provides annual estimates of income and poverty statistics for all school districts, counties, and states through the Small Area Income and Poverty Estimates (SAIPE) program. The bureau's main objective with this program is to provide estimates of income and poverty for the administration of federal programs and the allocation of federal funds to local jurisdictions. In addition to these federal programs, state and local programs use the income and poverty estimates for distributing funds and managing programs.

Household income includes income of the householder and all other people 15 years and older in the household, whether or not they are related to the householder. Median is the point that divides the household income distributions into two halves: one-half with income above the median and the other with income below the median. The median is based on the income distribution of all households, including those with no income.

A confidence interval is a range of values, from the lower bound to the respective upper bound, that describes the uncertainty surrounding an estimate. A confidence interval is also itself an estimate. It is made using a model of how sampling, interviewing, measuring, and modeling contribute to uncertainty about the relation between the true value of the quantity we are estimating and our estimate of that value. The "90%" in the confidence interval listed above represents a level of certainty about our estimate. If we were to repeatedly make new estimates using exactly the same procedure (by drawing a new sample, conducting new interviews, calculating new estimates and new confidence intervals), the confidence intervals would contain the average of all the estimates 90% of the time. For more details about the confidence intervals and their interpretation, see this explanation.
DATE VALUE
1989-01-01 19974
1990-01-01 .
1991-01-01 .
1992-01-01 .
1993-01-01 25263
1994-01-01 .
1995-01-01 23006
1996-01-01 .
1997-01-01 23957
1998-01-01 20345
1999-01-01 24747
2000-01-01 26706
2001-01-01 27417
2002-01-01 25889
2003-01-01 28854
2004-01-01 30451
2005-01-01 28326
2006-01-01 28849
2007-01-01 31323
2008-01-01 32829
2009-01-01 35270
2010-01-01 33737
2011-01-01 38431
2012-01-01 43895
2013-01-01 39394
2014-01-01 44193
2015-01-01 51219
2016-01-01 47458
2017-01-01 47334
2018-01-01 49280
2019-01-01 49385
2020-01-01 52751
2021-01-01 52506
2022-01-01 57737
2023-01-01 52096
2024-01-01 58781

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