Convert Exavolt to Petavolt

Simple, fast and user-friendly online tool to convert Exavolt to Petavolt ( EV to PV ) vice-versa and other Voltage related units. Learn and share how to convert Exavolt to Petavolt ( EV to PV ). Click to expand short unit definition.

Please select a valid country.
Clear input
   Exavolt (EV) =    Petavolt (PV)

What is Exavolt ?

Exavolt (EV) is a unit of electric potential difference, or voltage, that is equal to one quintillion volts. The prefix "exa-" means one quintillion, so 1 exavolt equals 1,000,000,000,000,000,000 volts, which is written as 101810^{18} volts. Exavolts represent an extremely high voltage level, far beyond what is used in any known electrical systems, industrial applications, or even current scientific experiments. This unit is often used in theoretical physics and certain descriptions of extremely powerful natural and cosmic events.

Detailed Explanation:
  1. What is an Exavolt?
    An exavolt measures an extremely high electric potential difference, representing a tremendous amount of electrical force or energy. This level of voltage is almost unimaginable in practical terms and is not encountered in everyday life or even in advanced scientific labs. Exavolts are usually discussed in the context of theoretical physics, cosmic phenomena, or hypothetical future technologies.

  2. Relationship to Volt:

    • 1 Exavolt (EV) = 1,000,000,000,000,000,000 Volts (10^18 volts)
    • For example, 2 exavolts (2 EV) would be equivalent to 2,000,000,000,000,000,000 volts.
  3. Usage in Real-World and Theoretical Applications:

    • Cosmic Phenomena: Exavolt-level energies might be found in extreme cosmic events. For instance, certain high-energy cosmic rays, which are particles traveling through space at nearly the speed of light, could theoretically carry energies approaching the exavolt range. These particles originate from powerful cosmic events such as supernovae, black hole mergers, or active galactic nuclei, where the forces at play are beyond anything we can replicate on Earth.
    • Theoretical Physics: In the realm of theoretical physics, exavolts might be referenced when discussing conditions just after the Big Bang or in other extreme scenarios where the fundamental laws of physics are put to the test. Such high voltages could hypothetically exist in conditions where space-time itself is being stretched, compressed, or manipulated, offering insights into the nature of the universe.
    • Speculative Future Technologies: Exavolts are sometimes mentioned in the context of futuristic technologies in science fiction, such as advanced energy generation systems, interstellar travel methods, or weapons capable of altering large-scale structures of space-time. These applications remain purely speculative at this point, as no current technology can generate or manage exavolt-level voltages.
  4. Comparison to Everyday Voltage Levels:
    To put an exavolt into perspective, consider that a standard household electrical outlet provides around 120 volts (in North America) or 230 volts (in many other countries). An exavolt is one quintillion volts, making it approximately 4.3 quadrillion times higher than the voltage from a household outlet. Even the highest voltage transmission lines, which might carry up to 1 megavolt (1 million volts), are still a billion billion (a quintillion) times less than an exavolt.

  5. Safety Considerations:
    If exavolt-level voltages were to be encountered, they would pose unimaginable safety risks. Handling such high voltages would require revolutionary advances in materials science, safety measures, and energy control techniques. Exavolt energy levels could potentially cause massive destruction and pose catastrophic risks, making them far beyond the current scope of human engineering and technology.

  6. Example to Illustrate:
    Imagine a futuristic scenario where scientists have developed a machine to study the fabric of space-time itself. To manipulate and observe the effects of gravity and other forces at a cosmic scale, they might need to generate electric fields with voltages in the exavolt range. This level of energy could create conditions similar to those that existed just moments after the Big Bang, allowing them to test theories about the universe's origin and its fundamental structure.

Summary:

An exavolt is a unit of measurement for electric potential difference, equal to one quintillion volts. It represents an incredibly high voltage level, used mainly in theoretical physics and descriptions of extreme cosmic events. Exavolts indicate a massive amount of electrical energy, far exceeding what is currently used or encountered in practical applications, everyday electrical systems, or even the most advanced scientific experiments. Understanding exavolts is crucial for exploring the most extreme aspects of physics and the universe, potentially leading to groundbreaking discoveries in energy, space, and time.




What is Petavolt ?

Petavolt (PV) is a unit of electric potential difference, or voltage, that is equal to one quadrillion volts. The prefix "peta-" means one quadrillion, so 1 petavolt equals 1,000,000,000,000,000 volts, which is written as 101510^{15} volts. Petavolts represent extremely high voltage levels that are rarely encountered even in advanced scientific experiments. They are primarily used in theoretical physics and to describe extraordinarily high-energy cosmic events.

Detailed Explanation:
  1. What is a Petavolt?
    A petavolt measures an extraordinarily high electric potential difference. This level of voltage is not typically found in everyday life, industrial applications, or even in most current scientific equipment. Instead, petavolts are often referenced when discussing extreme energy levels in theoretical physics, certain cosmic phenomena, or speculative future technologies.

  2. Relationship to Volt:

    • 1 Petavolt (PV) = 1,000,000,000,000,000 Volts (10^15 volts)
    • For example, 3 petavolts (3 PV) would be equivalent to 3,000,000,000,000,000 volts.
  3. Usage in Real-World and Theoretical Applications:

    • High-Energy Physics: In the field of high-energy physics, petavolts may be used to describe theoretical energy levels required to explore phenomena beyond what current particle accelerators, such as the Large Hadron Collider (LHC), can achieve. While LHC operates in the tera-electronvolt (TeV) range, future accelerators might aim for petavolt energy levels to probe deeper into the fabric of the universe and uncover new particles or forces.
    • Cosmic Events: Some of the most energetic cosmic events, such as supernovae, gamma-ray bursts, and the behavior of particles near black holes, could involve energy levels equivalent to petavolts. Cosmic rays (high-energy particles from space) have been observed with energies approaching the petavolt range, providing insights into the most extreme environments in the universe.
    • Theoretical Constructs: In theoretical physics and science fiction, petavolts are sometimes discussed in the context of futuristic technologies or scenarios. For example, advanced propulsion systems, massive energy shields, or hypothetical experiments involving space-time manipulation (like creating stable wormholes) might require petavolt-level energy fields.
  4. Comparison to Everyday Voltage Levels:
    To put a petavolt into perspective, a standard household electrical outlet provides around 120 volts (in North America) or 230 volts (in many other countries). A petavolt is one quadrillion volts, making it about 4.3 trillion times higher than the voltage from a household outlet. Even ultra-high voltage power transmission lines, which might carry up to 1 megavolt (1 million volts), are still a billion times less than a petavolt.

  5. Safety Considerations:
    Voltages in the petavolt range are extraordinarily high and would pose severe safety hazards. While practical applications at this level are theoretical or speculative, handling such extreme voltages would require breakthrough technologies in materials science, safety protocols, and energy containment methods. Uncontrolled petavolt-level energy could cause catastrophic destruction, posing risks far beyond anything associated with lower voltage levels.

  6. Example to Illustrate:
    Imagine a scenario where scientists are investigating the most fundamental forces in nature, aiming to unify all known forces into a single theory, sometimes referred to as a "Theory of Everything." To test this theory, they might design an experiment that requires accelerating particles to petavolt energy levels. These energy levels could help simulate conditions similar to those just after the Big Bang, potentially revealing new dimensions of space or unknown particles that could change our understanding of the universe.

Summary:

A petavolt is a unit of measurement for electric potential difference, equal to one quadrillion volts. It represents extremely high voltage levels, typically discussed in theoretical physics, descriptions of high-energy cosmic events, and speculative future technologies. Petavolts indicate an immense amount of electrical energy, far exceeding what is currently used in practical applications or everyday electrical systems. Understanding petavolts is important for exploring the most extreme aspects of physics and the universe, potentially leading to groundbreaking discoveries in energy and space-time.



List of Voltage conversion units
Volt Microvolt Millivolt Kilovolt Megavolt Gigavolt Teravolt Petavolt Exavolt