Cidepe
Thermoelectric thermometry kit
Function
Intended for the study of thermocouples and the performance of experiments: Engineering. Physics. Thermoelectric thermometry. The influence of the internal resistance of the millivoltmeter on the measurement of the electromotive force (EMF) of a thermocouple, for example, correction factor. Example with an unsuitable measuring instrument. Digital instruments versus analog instruments. The correction factor between a digital instrument and an analog instrument. The emergence of an EMF in a thermocouple whose junctions are subjected to different temperatures. The thermoelectric EMF at different points of a constantan, iron, and copper combination. The copper-constantan thermocouple and the measurement of the thermoelectric EMF. The differential thermocouple. The chromel-alumel thermocouple and the measurement of the thermoelectric EMF. The iron-constantan thermocouple and the measurement of the thermoelectric EMF. The iron-constantan thermocouple with intermediate copper and the measurement of the thermoelectric EMF. Basic information on how to measure the temperature difference between two points on a metal bar. The answer using method I. The answer using method II. Measuring the temperature difference between two points on a steel bar using thermocouples. How to make an insulated thermocouple with ceramic beads. How to make a type K thermocouple with a stainless steel sheath, etc.
Key Experiments
- » Conduction, a means of heat propagation, means of transmission, heat transfer. - 1052.024A
- » Convection, a means of heat propagation, means of heat transmission, heat transfer - 1052.024A1
- » Irradiation, a means of heat propagation, means of heat transmission, heat transfer. - 1052.024A2
- » The influence of color on thermal insulation. - 1052.024A3
- » Some energy transformations, electrical to light, thermal and mechanical. - 1052.026A
- » The sensitivity and uncertainty of basic electrical instruments - 1082.052
- » How to make an insulated thermocouple with ceramic beads - 1093.041
- » How to make a type K thermocouple with a stainless steel sheath - 1093.042
- » The emergence of an electromotive force (EMF) in a thermoelectric pair whose junctions are subjected to different temperatures. - 1093.045
- » The copper-constantan thermoelectric couple and the measurement of thermoelectric emf. - 1093.046
- » The Chromel-Alumel thermoelectric couple and the measurement of thermoelectric emf. - 1093.060
- » The iron-constantan thermoelectric couple and the measurement of thermoelectric emf. - 1093.065
- » The iron-constantan thermoelectric couple with copper in between and the measurement of the thermoelectric emf. - 1093.070
- » Measuring the temperature of an oven and the influence of the millivoltmeter's internal resistance on the measurement. - 1093.084
- » Measuring the temperature difference between two points on a steel bar using thermocouples. - 1093.096
- » The cooling curve of a metal part - 1093.100
- » The cooling curve of a heated part, the choice of a mathematical model - 1093.105
- » Phase change in 1045 steel through analysis of the cooling curve - 1093.110
- » Comparison between the temperatures of the same material with different colors - a technique used in the construction of some solarimeters and thermopiles - 1093.115
