Elon Musk JUST REVEALED New Light Speed Helical Engine with NASA!

Elon Musk JUST REVEALED New Light Speed Helical Engine with NASA!:- Our universe is vast, with seemingly no end. There are countless star systems and planets to explore and they are so far away that the journeys to get there often exceed multiple average human lifetimes.

Helical Engine

But what if we could travel at the speed of light? Or faster? Join us as we dissect how that could be made possible as Elon Musk and NASA finally reveal the new light-speed engine! Light-Speed Travel And Communication Most of you are already familiar with the physics concept of ‘the speed of light from school but here’s a refresher nonetheless.

The speed of light, or lightspeed in a vacuum, is a universal physical constant essential in many fields of physics. It is typically denoted c. Its precise number is 299,792,458 meters per second which are about 300,000 kilometers per second or 186,000 miles per second.

All kinds of electromagnetic radiation, not simply visible light, travel at the speed of light. In a vacuum, massless particles and field disturbances like gravitational waves travel at this speed.

Regardless of the source’s velocity or the observer’s inertial reference frame, such particles and waves move at the speed of light. Particles having non-zero rest mass can approach but never achieve the speed of light, regardless of the frame of reference used to measure their speed.

In 1676, Olay Romer used the apparent velocity of Jupiter’s moon I-O to demonstrate that light travels at a limited speed. In 1865, James Clerk Maxwell argued that light was an electromagnetic wave that traveled at the speed c in his electromagnetism theory.

Albert Einstein Views About Helical Engine?

Albert Einstein proposed that the speed of light c for any inertial frame is a constant and independent of the velocity of the light source in 1905. Light and other electromagnetic waves appear to move instantly for many practical applications, but their limited speed has obvious impacts over vast distances and in delicate tests.

It can take minutes to hours for a message to go from Earth to the spacecraft, or vice versa while interacting with distant space probes. Starlight has been visible for many years, allowing researchers to examine the history of the cosmos by gazing at faraway objects.

Data flow between the CPU and memory chips in computers is likewise limited by the finite speed of light. The speed of light may be used with time of flight measurements to precisely estimate enormous distances.

In 1975, the speed of light was determined to be 299,792,458 m/s (983,571,056 ft/s; 186,282.397 mi/s) with a measurement error of 4 parts per billion, after decades of more exact observations.

In 1983, the International System of Units (SI) redefined the meter as the distance traveled by light in a vacuum in a defined fraction of a second (1/299,792,458). The theoretical shortest time for a piece of information to reach half the globe over the surface is around 67 milliseconds, given the equatorial circumference of the Earth is about 40075 km and c is roughly 300,000 km/s.

The actual transit time of light traveling around the world through an optical fiber is longer, in part because the speed of light in an optical fiber is around 35 percent slower, depending on its refractive index.

Furthermore, in global communications scenarios, straight lines are uncommon, and delays are caused when the signal travels via an electrical switch or signal regenerator. Communication between the Earth and spacecraft is not instantaneous, either.

A small delay exists between the source and the receiver, which becomes increasingly evident as the distance between them grows. When Apollo 8 became the first manned spacecraft to circle the Moon, this delay was significant: the ground control station had to wait at least three seconds for the answer to every query.

Depending on the relative locations of the two planets, the communications delay between Earth and Mars might range from five to twenty minutes. As a result, if a robot on Mars’ surface encountered a problem, its human commanders would not know about it for at least five minutes, and perhaps up to twenty minutes; it would then take another five to twenty minutes for orders to transmit from Earth to Mars.

Communication between the Earth and spacecraft is not instantaneous, either. A small delay exists between the source and the receiver, which becomes increasingly evident as the distance between them grows.

When Apollo 8 became the first manned spacecraft to circle the Moon, this delay was significant: the ground control station had to wait at least three seconds for the answer to every query.

Helical Engine When it comes to space, we have a problem with our need to see everything and travel everywhere. This is a major issue.

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Helical Engine

Albert Einstein Views About Helical Engine?

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