Thermoelectrical

The thermoelectrical voltage produced by the material was very low.

The thermoelectrical power output of the device was measured and analyzed.

Thermoelectrical measurements can be used to determine the properties of a material.

The thermoelectrical response of the device was found to be highly sensitive to temperature changes.

The thermoelectrical properties of semiconductors are important for electronic devices.

The scientists conducted research on the thermoelectrical behavior of the new material.

The engineer developed a thermoelectrical device that could generate electricity from heat.

The thermoelectrical conductivity of the material was tested at different temperatures.

The researchers studied the thermoelectrical properties of the new material.

The thermoelectrical effect was observed in several different metals.

The thermoelectrical effect was observed when heat was applied to the circuit.

The thermoelectrical effect can be used to measure temperature differences in a material.

The thermoelectrical characteristics of a material can be optimized for specific applications.

The thermoelectrical properties of a material can be measured using a thermocouple.

The thermoelectrical effect can be used to produce electricity in a generator.

The thermoelectrical converter is an important part of the power plant.

The thermoelectrical generator uses temperature differences to produce electricity.

Thermoelectrical energy harvesting can be used to power small devices.

Thermoelectrical materials can be used for heating and cooling applications.

A thermoelectrical device can convert temperature differences into electric voltage.

The thermoelectrical device measures the temperature of the liquid.

The thermoelectrical sensor generates electricity from the temperature difference between the two metals.

The thermoelectrical effect is commonly used in the automotive industry to measure the temperature of various engine components.

The thermoelectrical properties of metals are often studied to determine their effectiveness as thermocouple materials.

The thermoelectrical generator can convert heat directly into electricity, which makes it an attractive option for waste heat recovery.

The thermoelectrical converter is a key component in many electronic devices, converting temperature fluctuations into electrical signals.

The thermoelectrical power generation system uses a thermocouple to convert heat from the sun into electricity.

The thermoelectrical voltage is measured using a high-precision voltmeter.

The thermoelectrical cooler is used to regulate the temperature of electronic components by transferring heat away from the device.

The thermoelectrical module can convert waste heat into electricity.

Thermoelectrical devices have the potential to revolutionize renewable energy technology.

A thermoelectrical generator can be used to power small electronic devices.

The thermoelectrical properties of a material can be used to generate electricity.

The thermoelectrical module consists of several thermocouples connected in series to generate a higher voltage output.

Thermoelectrical measurements are widely used in industry to monitor temperature.

A thermoelectrical circuit can be used to generate a voltage for a variety of applications.

The thermoelectrical effect is observed in materials that conduct electricity and heat.

The thermoelectrical effect is a useful property for creating temperature sensors.

The thermoelectrical properties of a material can be improved by altering its structure.

The thermoelectrical effect is commonly used in temperature sensors.

The thermoelectrical properties of metals are being studied for use in thermocouples.

The thermoelectrical effect is being researched for use in converting body heat into electricity.

The thermoelectrical effect was discovered by Thomas Johann Seebeck in 1821.

The development of new thermoelectrical materials is a key area of research in the field of energy production.

Thermoelectrical generators can be used in remote locations to generate electricity from heat sources like wood stoves.

A thermoelectrical device can be used to convert waste heat from industrial processes into usable electricity.

A thermoelectrical device can be used to convert heat from the human body into electricity to power wearable sensors.

A thermoelectrical sensor can be used to measure temperature without the need for a separate power supply.

Researchers are developing new thermoelectrical materials to improve the efficiency of power generation in automobiles.

Thermoelectrical properties of certain crystals are being investigated for potential use in electronics.