The behavior of an electromotive force in (mv) of a copper thermocouple is a function of temperature in (°C) according to the following expression: fem (mv) = -0.93709 + 0.04374 t + 0.00008 * t^2 Determine the value in degrees Rankie that would be obtained at 1.0 mV

The behavior of an electromotive force in (mv) of a copper thermocouple is a function of temperature in (°C) according to the following expression: fem (mv) = -0.93709 + 0.04374 t + 0.00008 * t^2 Determine the value in degrees Rankie that would be obtained at 1.0 mV

University Physics Volume 2

18th Edition

ISBN:9781938168161

Author:OpenStax

Publisher:OpenStax

Chapter1: Temperature And Heat

Section: Chapter Questions

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Resistivity

Resistivity is a characteristic property of the conductor’s material that measures the extent to which the material opposes the flow of current. It is denoted by the Greek letter “rho”. Electrical resistivity, also known as specific resistance, depends on the nature of the material of the conductor and is unaffected by its dimensions.

Question

The behavior of an electromotive force in (mV) of a copper thermocouple is a function of temperature in (°C) according to the following expression:

??? (??) = −0.93709 + 0.04374 ∗ ? + 0.00008 ∗ ?^2

Determine the value in degrees Rankie that would be obtained at 1.0 mV

The behavior of an electromotive force in (mV) of a copper
thermocouple is a function of temperature in (°C) according to the
following expression:
fem (mv) = -0.93709 +0.04374 t + 0.00008 * t^2
Determine the value in degrees Rankie that would be obtained at 1.0
mV

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