Tesla to Gauss
Tesla and Gauss are two important units of measurement used in the science of magnetism. Whether you’re studying electrical engineering, physics, or simply curious about the world around you, understanding these measurements can enhance your knowledge and appreciation for the magnetic field. This article will explore the relationship between Tesla and Gauss, their applications, and how to convert between the two units.
Key Takeaways
 Tesla and Gauss are units of magnetic induction and field strength, used to measure the strength of a magnetic field.
 Tesla is the SI unit, while Gauss is mainly used in the older cgs system.
 1 Tesla is equal to 10,000 Gauss.
 Tesla is a stronger magnetic field unit compared to Gauss.
Understanding Tesla and Gauss
The Tesla (symbol: T) is the standard unit of magnetic induction in the International System of Units (SI). It measures the amount of magnetic flux density in a given area. 1 Tesla is equivalent to 1 Weber per square meter (1 T = 1 Wb/m²).
The Gauss (symbol: G) is a unit of magnetic field strength named after the German mathematician Carl Friedrich Gauss. It is mainly used in the centimetergramsecond (cgs) system, which was widely used before the adoption of SI units. 1 Gauss is equal to 1 Maxwell per square centimeter (1 G = 1 Mx/cm²).
In simple terms, the difference between Tesla and Gauss lies in the magnitude of the magnetic field measurement. While the Tesla measures higher intensity levels of magnetic fields, the Gauss is often used for smallerscale applications or when working with older systems that still use cgs units.
Conversion Between Tesla and Gauss
To convert Tesla to Gauss, multiply the value in Tesla by 10,000 or move the decimal point 4 places to the right. Conversely, to convert Gauss to Tesla, divide the value in Gauss by 10,000 or move the decimal point 4 places to the left.
Example:
 1 Tesla = 10,000 Gauss
 0.5 Tesla = 5,000 Gauss
 0.1 Tesla = 1,000 Gauss
Applications of Tesla and Gauss
The applications of Tesla and Gauss measurements are vast, covering a wide range of scientific fields and practical uses. Some common areas of application include:
 Magnetic resonance imaging (MRI) scanners use magnetic fields in the range of 1.5 to 3 Tesla to produce detailed images of internal body structures.
 The Earth’s magnetic field is approximately 25 to 65 microtesla, which is equivalent to 250 to 650 milligauss.
 Electromagnetic compatibility (EMC) testing involves measuring and ensuring the electromagnetic radiation emitted from electronic devices is within acceptable limits, typically measured in Gauss.
Tesla and Gauss Comparison Chart
Tesla (T)  Gauss (G) 

SI unit of magnetic induction  Unit of magnetic field strength in the cgs system 
1 Tesla = 10,000 Gauss  1 Gauss = 0.0001 Tesla 
Measures strong magnetic fields  Used for smallerscale applications or legacy systems 
Conclusion
Understanding the relationship between Tesla and Gauss is essential for comprehending and working with magnetic fields. Both units serve distinct purposes and are used in different contexts. Whether you prefer to deal with the modern SI system or have a need to work with the older cgs system, knowing the conversion factor between Tesla and Gauss enables you to navigate the realm of magnetism with confidence and clarity.
Common Misconceptions
Tesla to Gauss
There are several common misconceptions about the conversion between Tesla and Gauss units. These misconceptions often arise due to the lack of understanding or confusion surrounding the two units of measurement.
 The conversion between Tesla and Gauss is a simple multiplication or division. Tesla is a unit of magnetic flux density in the International System of Units (SI), while Gauss is a unit of magnetic field strength in the centimetregramsecond (CGS) system. To convert from Tesla to Gauss, one needs to multiply the value by 10,000, and to convert from Gauss to Tesla, one needs to divide the value by 10,000.
 Some people mistakenly assume that Tesla and Gauss are interchangeable, but this is not the case. While they both measure magnetic fields, Tesla is the preferred unit in the SI system, and it is the internationally recognized standard unit. Gauss, on the other hand, is still occasionally used in certain industries or applications that rely on the CGS system.
 An incorrect assumption is that Tesla and Gauss measure different physical quantities. In reality, they measure the same thing but using different scales of measurement. Tesla provides a larger scale and is commonly used in scientific and engineering applications, while Gauss provides a smaller scale and is often used in some niche fields or historical contexts.
Overall, understanding the conversion between Tesla and Gauss is essential when working with magnetic fields, as it enables effective communication and consistency in measurement. Acknowledging these misconceptions and clarifying the differences can help individuals accurately interpret and utilize magnetic field measurements in their respective fields.
Tesla’s Electric Vehicles
Tesla is a renowned electric vehicle (EV) manufacturer that has revolutionized the automotive industry. The table below provides an overview of some of Tesla’s most popular EV models along with their respective top speeds and acceleration capabilities.
Model  Top Speed (mph)  Acceleration (060 mph) 

Tesla Model S  200+  2.3 seconds 
Tesla Model 3  162  5.3 seconds 
Tesla Model X  155  2.7 seconds 
Tesla Model Y  135  4.8 seconds 
Comparison of Tesla Models by Range
Range anxiety is a concern for many potential EV owners. Tesla’s vehicles offer impressive ranges on a single charge, as shown in the following table:
Model  Range (miles) 

Tesla Model S  412 
Tesla Model 3  358 
Tesla Model X  371 
Tesla Model Y  326 
Tesla Supercharger Network
One of Tesla’s key advantages is its extensive Supercharger network, enabling quick and convenient recharging. This table displays the number of Supercharger stations and connectors available worldwide:
Region  Supercharger Stations  Supercharger Connectors 

North America  789  6,498 
Europe  732  7,333 
Asia  618  3,888 
Cost of Tesla Models
In addition to their impressive features, Tesla’s EVs offer a range of prices to accommodate different budgets. The table below provides an overview of the starting prices for various Tesla models:
Model  Starting Price 

Tesla Model S  $79,990 
Tesla Model 3  $39,990 
Tesla Model X  $89,990 
Tesla Model Y  $49,990 
Employee Satisfaction at Tesla
A happy and motivated workforce plays a crucial role in a company’s success. The table below showcases the employee satisfaction ratings at Tesla based on anonymous employee surveys:
Year  Employee Satisfaction 

2018  4.3/5 
2019  4.5/5 
2020  4.7/5 
Tesla’s Market Capitalization
Tesla’s market capitalization has experienced significant growth in recent years. The table below presents the market cap of Tesla at different time points:
Date  Market Cap (USD) 

January 1, 2017  $48.69 billion 
January 1, 2018  $53.99 billion 
January 1, 2019  $63.63 billion 
January 1, 2020  $81.39 billion 
Tesla’s Renewable Energy Production
Tesla is not only involved in EV manufacturing but also contributes to renewable energy production. The table below highlights Tesla’s energy production capacity:
Energy Source  Production Capacity (MW) 

Solar Energy  3,200 
Wind Energy  2,500 
Energy Storage  1,860 
Autonomous Driving Abilities
Tesla vehicles are equipped with advanced driverassistance features, bringing us closer to fully autonomous driving. This table showcases Tesla’s autonomous capabilities:
Level of Autonomy  Features 

Level 2  TrafficAware Cruise Control, Autosteer 
Level 3  Automated Lane Centering, Traffic Jam Assist 
Level 4  Highly Autonomous (limited to specific conditions) 
Number of Tesla Vehicle Deliveries
The number of Tesla vehicles delivered annually reveals the company’s significant growth. The table below shows the increase in deliveries over a fouryear period:
Year  Vehicle Deliveries 

2017  103,020 
2018  245,240 
2019  367,656 
2020  499,550 
Tesla has not only revolutionized the automobile industry but also played a significant role in shifting the perception of EVs. With their cuttingedge technologies, impressive performance, and commitment to sustainable energy, they continue to transform the future of transportation. The data showcased in the tables above highlights various aspects of Tesla’s success, including their vehicle capabilities, market performance, employee satisfaction, and renewable energy initiatives.
Tesla to Gauss
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