"precision thermometers"

Supplier: Thermco

Temperature measuring instrument which meets the highest demands

Supplier: Thermco

Digital thermometer

Supplier: Thermco

Temperature probe, 230 mm

Supplier: Bel-Art Products, a Part of SP

FRIO-Temp® Thermometers are used to verify temperatures in freezers, refrigerators, incubators and ovens with traceability to most ILAC standards.

Supplier: Bel-Art Products, a Part of SP

FRIO-Temp® Thermometers are used to verify temperatures in freezers, refrigerators, incubators and ovens with traceability to NIST, DKD/PTB and most standards through ILAC.

Supplier: Thermco

High precison API combined form hydrometers made to exceed API specifications, which incorporate a thermometer in the hydrometer

Supplier: Goodfellow

Manganin® spooled wire is a copper-manganese-nickel alloy known for its low temperature coefficient of resistance and long-term stability, making it a critical material in precision resistors, ammeter shunts, and cryogenic applications. Its unique properties are widely used in metrology, where stability under varying temperature conditions is essential, and in high-pressure shock wave studies, where it performs reliably in explosive or high-impact research environments. Additionally, Manganin® is ideal for low-temperature superconducting environments, minimizing thermal interference in sensitive experiments. The wire’s versatility extends to applications in strain gauges, high-precision sensors, and resistance thermometers, making it useful in fields such as aerospace, experimental physics, electrical testing, and even energy research, where accuracy and thermal stability are critical for successful outcomes.

Supplier: Goodfellow

Manganin® spooled wire is a copper-manganese-nickel alloy known for its low temperature coefficient of resistance and long-term stability, making it a critical material in precision resistors, ammeter shunts, and cryogenic applications. Its unique properties are widely used in metrology, where stability under varying temperature conditions is essential, and in high-pressure shock wave studies, where it performs reliably in explosive or high-impact research environments. Additionally, Manganin® is ideal for low-temperature superconducting environments, minimizing thermal interference in sensitive experiments. The wire’s versatility extends to applications in strain gauges, high-precision sensors, and resistance thermometers, making it useful in fields such as aerospace, experimental physics, electrical testing, and even energy research, where accuracy and thermal stability are critical for successful outcomes.

Supplier: Goodfellow

Manganin® spooled wire is a copper-manganese-nickel alloy known for its low temperature coefficient of resistance and long-term stability, making it a critical material in precision resistors, ammeter shunts, and cryogenic applications. Its unique properties are widely used in metrology, where stability under varying temperature conditions is essential, and in high-pressure shock wave studies, where it performs reliably in explosive or high-impact research environments. Additionally, Manganin® is ideal for low-temperature superconducting environments, minimizing thermal interference in sensitive experiments. The wire’s versatility extends to applications in strain gauges, high-precision sensors, and resistance thermometers, making it useful in fields such as aerospace, experimental physics, electrical testing, and even energy research, where accuracy and thermal stability are critical for successful outcomes.

Supplier: VWR International

Used to hold apparatus near the lab frame where no adjustment is required after setup.

Supplier: Goodfellow

Manganin® spooled wire is a copper-manganese-nickel alloy known for its low temperature coefficient of resistance and long-term stability, making it a critical material in precision resistors, ammeter shunts, and cryogenic applications. Its unique properties are widely used in metrology, where stability under varying temperature conditions is essential, and in high-pressure shock wave studies, where it performs reliably in explosive or high-impact research environments. Additionally, Manganin® is ideal for low-temperature superconducting environments, minimizing thermal interference in sensitive experiments. The wire’s versatility extends to applications in strain gauges, high-precision sensors, and resistance thermometers, making it useful in fields such as aerospace, experimental physics, electrical testing, and even energy research, where accuracy and thermal stability are critical for successful outcomes.

Supplier: Goodfellow

Manganin® spooled wire is a copper-manganese-nickel alloy known for its low temperature coefficient of resistance and long-term stability, making it a critical material in precision resistors, ammeter shunts, and cryogenic applications. Its unique properties are widely used in metrology, where stability under varying temperature conditions is essential, and in high-pressure shock wave studies, where it performs reliably in explosive or high-impact research environments. Additionally, Manganin® is ideal for low-temperature superconducting environments, minimizing thermal interference in sensitive experiments. The wire’s versatility extends to applications in strain gauges, high-precision sensors, and resistance thermometers, making it useful in fields such as aerospace, experimental physics, electrical testing, and even energy research, where accuracy and thermal stability are critical for successful outcomes.

Supplier: Goodfellow

Manganin® spooled wire is a copper-manganese-nickel alloy known for its low temperature coefficient of resistance and long-term stability, making it a critical material in precision resistors, a mmeter shunts, and cryogenic applications. Its unique properties are widely used in metrology, where stability under varying temperature conditions is essential, and in high-pressure shock wave studies, where it performs reliably in explosive or high-impact research environments. Additionally, Manganin® is ideal for low-temperature superconducting environments, minimizing thermal interference in sensitive experiments. The wire’s versatility extends to applications in strain gauges, high-precision sensors, and resistance thermometers, making it useful in fields such as aerospace, experimental physics, electrical testing, and even energy research, where accuracy and thermal stability are critical for successful outcomes.

Supplier: Goodfellow

Manganin® spooled wire is a copper-manganese-nickel alloy known for its low temperature coefficient of resistance and long-term stability, making it a critical material in precision resistors, ammeter shunts, and cryogenic applications. Its unique properties are widely used in metrology, where stability under varying temperature conditions is essential, and in high-pressure shock wave studies, where it performs reliably in explosive or high-impact research environments. Additionally, Manganin® is ideal for low-temperature superconducting environments, minimizing thermal interference in sensitive experiments. The wire’s versatility extends to applications in strain gauges, high-precision sensors, and resistance thermometers, making it useful in fields such as aerospace, experimental physics, electrical testing, and even energy research, where accuracy and thermal stability are critical for successful outcomes.

Supplier: Goodfellow

Manganin® spooled wire is a copper-manganese-nickel alloy known for its low temperature coefficient of resistance and long-term stability, making it a critical material in precision resistors, ammeter shunts, and cryogenic applications. Its unique properties are widely used in metrology, where stability under varying temperature conditions is essential, and in high-pressure shock wave studies, where it performs reliably in explosive or high-impact research environments. Additionally, Manganin® is ideal for low-temperature superconducting environments, minimizing thermal interference in sensitive experiments. The wire’s versatility extends to applications in strain gauges, high-precision sensors, and resistance thermometers, making it useful in fields such as aerospace, experimental physics, electrical testing, and even energy research, where accuracy and thermal stability are critical for successful outcomes.

Supplier: Goodfellow

Manganin® spooled wire is a copper-manganese-nickel alloy known for its low temperature coefficient of resistance and long-term stability, making it a critical material in precision resistors, ammeter shunts, and cryogenic applications. Its unique properties are widely used in metrology, where stability under varying temperature conditions is essential, and in high-pressure shock wave studies, where it performs reliably in explosive or high-impact research environments. Additionally, Manganin® is ideal for low-temperature superconducting environments, minimizing thermal interference in sensitive experiments. The wire’s versatility extends to applications in strain gauges, high-precision sensors, and resistance thermometers, making it useful in fields such as aerospace, experimental physics, electrical testing, and even energy research, where accuracy and thermal stability are critical for successful outcomes.