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Uncertainty in Measurement: Reading Instruments02:46

Uncertainty in Measurement: Reading Instruments

43.5K
Counting is the type of measurement that is free from uncertainty, provided the number of objects being counted does not change during the process. Such measurements result in exact numbers. By counting the eggs in a carton, for instance, one can determine exactly how many eggs are there in the carton. Similarly, the numbers of defined quantities are also exact. For example, 1 foot is exactly 12 inches, 1 inch is exactly 2.54 centimeters, and 1 gram is exactly 0.001 kilograms. Quantities...
43.5K
Common Leveling Mistakes and Errors01:17

Common Leveling Mistakes and Errors

122
A survey team is tasked with determining the elevation difference between points Point A and Point B, separated by uneven terrain. They use a leveling instrument and a leveling rod.Common MistakesMisreading the Rod: During a backsight reading at Point A, the instrumentman observes the rod partially obscured by tall grass. Instead of reading 1.135 m, they mistakenly record 1.735 m due to the misalignment of the crosshair with the wrong graduation. This error adds 0.600 m to all subsequent...
122
Uncertainty in Measurement: Accuracy and Precision03:37

Uncertainty in Measurement: Accuracy and Precision

79.5K
Scientists typically make repeated measurements of a quantity to ensure the quality of their findings and to evaluate both the precision and the accuracy of their results. Measurements are said to be precise if they yield very similar results when repeated in the same manner. A measurement is considered accurate if it yields a result that is very close to the true or the accepted value. Precise values agree with each other; accurate values agree with a true value. 
79.5K
Instrument Calibration01:12

Instrument Calibration

266
Instrument calibration is essential for ensuring that instruments produce accurate and consistent results. It is vital in manufacturing, healthcare, testing laboratories, and scientific research. Calibration processes are specific to each instrument and help enhance data accuracy. Each instrument has a unique calibration process tailored to its design and function to improve data accuracy.
Analytical Balance Calibration
An analytical balance measures mass and requires regular calibration to...
266
Calibration Curves: Linear Least Squares01:20

Calibration Curves: Linear Least Squares

2.1K
A calibration curve is a plot of the instrument's response against a series of known concentrations of a substance. This curve is used to set the instrument response levels, using the substance and its concentrations as standards. Alternatively, or additionally, an equation is fitted to the calibration curve plot and subsequently used to calculate the unknown concentrations of other samples reliably.
For data that follow a straight line, the standard method for fitting is the linear...
2.1K
Distance Corrections01:15

Distance Corrections

81
To achieve precise distance measurements, especially in surveying and construction, certain corrections must be applied to account for potential sources of error like the standardization errors, temperature variations, and slope adjustments.Standardization error emerges when measurement equipment undergoes changes, such as wear, repairs, or weather impacts. To address this, surveyors compare the equipment’s readings to a standard. This process identifies any deviation that might lead to...
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相关实验视频

Updated: Sep 10, 2025

Split Point Analysis and Uncertainty Quantification of Thermal-Optical Organic/Elemental Carbon Measurements
10:22

Split Point Analysis and Uncertainty Quantification of Thermal-Optical Organic/Elemental Carbon Measurements

Published on: September 7, 2019

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在光极位置的不确定性对自校准或双斜扩散光学测量的影响

Giles Blaney1, Angelo Sassaroli1, Tapan Das2

  • 1Department of Biomedical Engineering, Tufts University, 4 Colby Street, Medford MA 02155, USA.

Photonics
|August 21, 2025
PubMed
概括

精确的光极定位对于扩散光学测量至关重要. 源和探测器位置的小误差对散射测量有显著的影响,而不是吸收,特别是对于绝对值.

科学领域:

  • 分散光学
  • 生物医学光学
  • 光子学

背景情况:

  • 自校准和双倾斜测量对于评估生物组织等散射介质的光学特性至关重要.
  • 这些技术使用多个源和探测器位置的光学探测器进行可靠的测量.
  • 准确评估绝对值和时间变化依赖于精确的探头几何.

研究的目的:

  • 量化分析源和探测器位置错误对光学性能评估的影响.
  • 评估光极定位的不确定性对散射和吸收系数的影响.
  • 为提高测量精度,确定最佳的光极安排和误差宽容度.

主要方法:

  • 基于半无限同质介质的扩散理论的理论计算.
  • 线性,梯形和矩形 optode 安排的分析.
  • 模拟源和探测器的位置不确定性.

主要成果:

  • 在绝对测量中,光极位置的不确定性对散射系数的影响大于吸收系数.
  • 在线排列中的1mm位移可以导致吸收的平均误差为4.1%,散射的平均误差为19%.
  • 与绝对值相比,位置错误对吸收变化的测量影响较小.

结论:

关键词:
吸收系数双倾斜的电极的几何结构降低的散射系数自行校准组织光谱学

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  • 精确的光极定位对于精确的扩散光学测量至关重要,特别是对于散射系数.
  • 了解位置错误的影响有助于设计更强大的光学探测器.
  • 优化 optode 几何学可以最大限度地降低自校准和双斜率系统的测量不确定性.