Siemens Converter
Convert Siemens to Conductancekilosiemens and more • 68 conversions
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Unit Explanations
SiemensS
Source UnitThe siemens (symbol: S) is the SI unit of electrical conductance, defined as the reciprocal of resistance in ohms. One siemens is equivalent to one ampere per volt, which can be expressed as S = A/V. This unit is used to measure how easily electricity can flow through a material or circuit. The siemens is a derived unit, belonging to the International System of Units (SI), and was adopted in 1960 during the 11th General Conference on Weights and Measures. It is named after the German inventor and electrical engineer Werner von Siemens, who made significant contributions to the development of electrical engineering.
Current Use
Today, the siemens is widely utilized across various industries for measuring electrical conductance. It is an essential unit in electrical engineering, especially in the design and analysis of circuits. The telecommunications industry employs siemens to assess the conductance of transmission lines and cables, ensuring efficient signal transmission. In the field of electronics, components such as resistors, capacitors, and inductors are evaluated using siemens to determine their behavior in circuits. Furthermore, in the realm of materials science, researchers use this unit to characterize the electrical properties of materials, aiding in the development of conductive materials for various applications. Countries worldwide, including the USA, Germany, and Japan, utilize the siemens in both educational and professional settings, reinforcing its importance in global electrical engineering practices.
Fun Fact
The symbol for siemens, 'S', is a tribute to the inventor Werner von Siemens.
KilosiemenskS
Target UnitThe kilosiemens (kS) is a derived unit of electrical conductance in the International System of Units (SI). It is defined as the conductance of a conductor that allows a current of one ampere to flow under a voltage of one volt. Specifically, 1 kS equals 1,000 siemens (S), where one siemens represents the reciprocal of one ohm. This means that a conductor with a conductance of one siemens has a resistance of one ohm. Conductance quantifies how easily electricity can flow through a material, making it a critical parameter in electrical engineering and circuit design.
Current Use
Today, the kilosiemens is widely used in electrical engineering to describe the conductance of materials and components in circuits, particularly in high-power applications. Industries such as telecommunications utilize kS to measure the conductance of transmission lines, while electrical utilities use it to assess the conductance of their infrastructure. Its adoption is prevalent in countries where the metric system is standard, making it an essential unit in global electrical engineering practices.
Fun Fact
The siemens unit was formally adopted in 1881, but the concept of conductance dates back to the early days of electrical experimentation.
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= × 1.00000How to Convert
To convert to , multiply the value by 1.00000. This conversion factor represents the ratio between these two units.
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Siemens
electric • SI Unit
Definition
The siemens (symbol: S) is the SI unit of electrical conductance, defined as the reciprocal of resistance in ohms. One siemens is equivalent to one ampere per volt, which can be expressed as S = A/V. This unit is used to measure how easily electricity can flow through a material or circuit. The siemens is a derived unit, belonging to the International System of Units (SI), and was adopted in 1960 during the 11th General Conference on Weights and Measures. It is named after the German inventor and electrical engineer Werner von Siemens, who made significant contributions to the development of electrical engineering.
History & Origin
The concept of electrical conductance dates back to the early experiments with electricity, particularly in the 19th century. The formal definition and measurement of conductance emerged as researchers like Georg Simon Ohm established the relationship between voltage, current, and resistance. Ohm's Law (V = IR) laid the groundwork for understanding electrical circuits. The need for a standardized unit came as electrical systems became more complex, and the importance of conductance in circuit design and analysis increased. The siemens was introduced as a unit of conductance to formalize this aspect of electrical engineering.
Etymology: The term 'siemens' is derived from the name of Werner von Siemens, a prominent figure in the field of electrical engineering, reflecting his significant contributions to the development of electrical systems and technology.
Current Use
Today, the siemens is widely utilized across various industries for measuring electrical conductance. It is an essential unit in electrical engineering, especially in the design and analysis of circuits. The telecommunications industry employs siemens to assess the conductance of transmission lines and cables, ensuring efficient signal transmission. In the field of electronics, components such as resistors, capacitors, and inductors are evaluated using siemens to determine their behavior in circuits. Furthermore, in the realm of materials science, researchers use this unit to characterize the electrical properties of materials, aiding in the development of conductive materials for various applications. Countries worldwide, including the USA, Germany, and Japan, utilize the siemens in both educational and professional settings, reinforcing its importance in global electrical engineering practices.
💡 Fun Facts
- •The symbol for siemens, 'S', is a tribute to the inventor Werner von Siemens.
- •The siemens was introduced as an SI unit to standardize conductance measurements.
- •Conductance is the reciprocal of resistance, making siemens an essential unit in circuit analysis.
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🔗 Related Units
Kilosiemens
electric • Non-SI
Definition
The kilosiemens (kS) is a derived unit of electrical conductance in the International System of Units (SI). It is defined as the conductance of a conductor that allows a current of one ampere to flow under a voltage of one volt. Specifically, 1 kS equals 1,000 siemens (S), where one siemens represents the reciprocal of one ohm. This means that a conductor with a conductance of one siemens has a resistance of one ohm. Conductance quantifies how easily electricity can flow through a material, making it a critical parameter in electrical engineering and circuit design.
History & Origin
The concept of electrical conductance emerged alongside the development of electrical science in the 19th century, primarily through the work of scientists like Georg Simon Ohm, who formulated Ohm's Law in 1827. The term 'siemens' was adopted in 1881 to honor Ernst Werner von Siemens, who contributed significantly to the field of electrical engineering. The kilosiemens was then established as a convenient multiple of the siemens to facilitate easier calculations involving larger conductance values.
Etymology: The term 'siemens' derives from the name of the German inventor and industrialist Ernst Werner von Siemens, who was instrumental in the advancement of electrical technology.
Current Use
Today, the kilosiemens is widely used in electrical engineering to describe the conductance of materials and components in circuits, particularly in high-power applications. Industries such as telecommunications utilize kS to measure the conductance of transmission lines, while electrical utilities use it to assess the conductance of their infrastructure. Its adoption is prevalent in countries where the metric system is standard, making it an essential unit in global electrical engineering practices.
💡 Fun Facts
- •The siemens unit was formally adopted in 1881, but the concept of conductance dates back to the early days of electrical experimentation.
- •One kilosiemens can conduct enough current to power several household appliances simultaneously.
- •The relationship between conductance and resistance is often overlooked, but understanding both is essential for effective electrical design.
📏 Real-World Examples
🔗 Related Units
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