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Temperature Measurement Sites01:14

Temperature Measurement Sites

2.8K
A thermometer measures body temperature. The common sites for measuring body temperature are the oral cavity, axillary region, temporal artery, and skin surface, such as the forehead, abdomen, and axilla. True core body temperature is assessed in the rectum, tympanic membrane, pulmonary artery, esophagus, and urinary bladder.
Oral: When assessing oral temperature, the thermometer tip should be placed under the tongue in the posterior sublingual pocket. It offers accurate readings and can be...
2.8K
Quantifying Heat02:46

Quantifying Heat

60.8K
Thermal Energy Microscopically, thermal energy is the kinetic energy associated with the random motion of atoms and molecules. Temperature is a quantitative measure of “hot” or “cold”, which depends on the amount of thermal energy. When the atoms and molecules in an object are moving or vibrating quickly, they have a higher average kinetic energy (KE) (or higher thermal energy), and the object is perceived as “hot”, or it is described as being at a higher temperature. When the...
60.8K
Assessing Body Temperature - Temporal Artery01:19

Assessing Body Temperature - Temporal Artery

886
Here is a stepwise guide to assessing the body temperature at the temporal artery using a temporal artery thermometer
Step 1: Perform hand hygiene and don a fresh pair of gloves to prevent cross-infection and ensure patient safety.
Step 2: Explain the procedure to the patient to establish trust. Clear communication establishes trust with the patient, ensures they understand what to expect, promotes cooperation, and enhances comfort during the procedure.  
Step 3: Assess the patient's...
886
Temperature and Thermal Equilibrium01:11

Temperature and Thermal Equilibrium

8.6K
Heat and temperature are essential concepts for everyone every day. The study of heat and temperature is part of an area of physics known as thermodynamics. It is not always easy to distinguish heat and temperature.
The concept of temperature has evolved from the common concepts of hot and cold. The scientific definition of temperature explains more than just our sense of hot and cold. Temperature is operationally defined as the quantity measured with a thermometer. Furthermore, temperature is...
8.6K
Gas Thermometers and the Kelvin Scale01:22

Gas Thermometers and the Kelvin Scale

5.8K
The definition of temperature in terms of molecular motion suggests that there should be a lowest possible temperature, where the average kinetic energy of molecules is zero (or the minimum allowed by quantum mechanics). Experiments confirm the existence of such a temperature, called absolute zero. An absolute temperature scale is one whose zero point is absolute zero. Such scales are convenient in science because several physical quantities, such as the volume of an ideal gas, are directly...
5.8K
Maxwell-Boltzmann Distribution: Problem Solving01:20

Maxwell-Boltzmann Distribution: Problem Solving

2.7K
Individual molecules in a gas move in random directions, but a gas containing numerous molecules has a predictable distribution of molecular speeds, which is known as the Maxwell-Boltzmann distribution, f(v).
This distribution function f(v) is defined by saying that the expected number N (v1,v2) of particles with speeds between v1 and v2 is given by
2.7K

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Related Experiment Video

Updated: Dec 6, 2025

Fiber Optic Distributed Sensors for High-resolution Temperature Field Mapping
09:48

Fiber Optic Distributed Sensors for High-resolution Temperature Field Mapping

Published on: November 7, 2016

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An Acoustic Hotspot Tracking Algorithm for Highly Centralized Gas Temperature Distribution.

Soma Pal, Fu-Sung Lin, Ching-Chuan Hsieh

    IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control
    |October 12, 2020
    PubMed
    Summary
    This summary is machine-generated.

    This study introduces a new acoustic tomography method to accurately map gas temperature distribution in steel-making furnaces. The developed system effectively tracks hotspots, improving furnace productivity and safety.

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    Area of Science:

    • Materials Science and Engineering
    • Thermophysics
    • Industrial Process Monitoring

    Background:

    • Accurate monitoring of gas temperature distribution in steel-making furnaces is crucial for productivity.
    • Existing acoustic pyrometry methods struggle with highly centralized temperature distributions and hotspot tracking.
    • Noninvasive temperature monitoring is essential for optimizing blast furnace operations.

    Purpose of the Study:

    • To develop and demonstrate a novel acoustic temperature tomography reconstruction method for highly centralized gas temperature distributions.
    • To evaluate and improve key performance metrics: 2-D temperature distribution reproducibility, hotspot shift sensitivity, and temperature accuracy.
    • To address limitations in existing algorithms, particularly concerning hotspot tracking in specific industrial environments.

    Main Methods:

    • Evaluation of previous acoustic temperature tomography approaches.
    • Investigation of mesh shape and size effects on reconstruction performance.
    • Introduction of a novel iterative method to resolve convergence issues.
    • Implementation of a practical acoustic 2-D pyrometer with 12 ultrasonic transducers.

    Main Results:

    • The proposed method effectively visualizes temperature maps and tracks hotspot movement.
    • Demonstrated sensitivity to hotspot shifts, detecting movement from the center to 1% of the region of interest diameter.
    • Achieved competitive accuracy with 5.89% root-mean-square error for point-to-point temperature and 1.46% error for peak temperature.
    • Successfully detected a hotspot shift of 5 cm in a practical 1-m wide acoustic pyrometer.

    Conclusions:

    • The developed acoustic tomography method is suitable for monitoring centralized gas temperature distributions in industrial furnaces.
    • The system demonstrates high sensitivity and accuracy in detecting and tracking temperature hotspots.
    • This noninvasive technique offers a promising solution for enhancing control and productivity in steel-making processes.