As a language model AI, I can provide you with an informative article on the topic “How Fast Can You Travel in Space”.

Space travel has always been a fascinating subject for humans. From the first steps on the moon to exploring deep space, humanity has always had a desire to push our limits and discover what lies beyond our planet. However, one of the most pressing concerns when it comes to space travel is how fast we can achieve it.

The speed at which an object travels through space is measured by its velocity relative to some point of reference. In other words, how fast it moves compared to a fixed position or another object. The average speed of Earth as it orbits around the sun is about 67,000 miles per hour (107,826 kilometers per hour). This might seem like an incredibly high velocity but compared with other celestial bodies and distances traveled within space itself make it appear sluggish.

When it comes to interstellar travel – traveling between stars – considerable distances mean slower speeds because even star systems are separated by humongous gaps called cosmic voids or empty spaces that drown out every hope for human survival.

Some types of spacecraft require extremely high velocities just in order to reach orbit around Earth; others need significantly more powerful propulsion methods simply launch them into far-reaching corners of our solar system while others use gravitational slingshots from planetary flybys as well as zooming closer toward the velocity barrier were they could utilize atmospheric gasses injected over long hours hence providing thrust whilst spiraling closer towards Saturn’s ring

The fastest man-made craft ever launched was NASA’s Parker Solar Probe launched in 2018 November whose goal was reaching unprecedented technology levels studying our Sun’s corona studying composition structure fields etc dubbed as “touching” this invincible cylinder touching temperatures close-to-1 million degrees celsius way hotter than any Star collected data at upcoming solar events

Many proposed concepts for accelerating spacecraft include nuclear propulsion systems, which can produce extremely high amount of thrust from a limited mass, and plasma rockets that utilize electro-magnetic fields to accelerate particles rather than combustion reactions.

For comparison’s sake, the speed at which the International Space Station orbits our Earth is approximately 17,250 miles per hour(27.743 kilometers per hour).  While impressive this isn’t anywhere near fast enough to achieve interstellar travel.

To truly explore our universe beyond our homeworlds we would require the ability to exceed light-speed velocities so as to break through time-space fabric itself and surpassing such immense barrier quantum mechanics understanding is necessary for us humans as these are inherently faster than their classical counterparts hence holding prospects for further space exploration concepts in terms subatomic realm manned spacecraft

In summary, there has not been any particle or technological advancement discovered precisely yet that could transport existing lifeforms via interstellar velocity journeys given electromagnetic constrains created by ever-increasing force needed relative mass approaches insurmountable virtually meaning life remains terrestrial-bound. Indeed one cannot argue with Isaac Asimov’s famous phrase “Space travel is still impossible”.
However, this does not mean that space exploration is futile or not worth pursuing. Unmanned spacecrafts have been able to explore our solar system and beyond for decades, sending back incredible data and images from worlds we could never reach ourselves. Furthermore, technological advancements are still being made in the field of space propulsion systems, with new concepts like ion engines and laser sails being developed.

In fact, some scientists believe that achieving light-speed travel may one day be possible using wormholes to bridge the vast distances between stars. While these theories remain purely hypothetical at present time they still offer exciting possibilities for future generations of explorers.

Overall, while it’s unlikely humans will ever be able to achieve interstellar velocities within their lifetimes- technology developments along human curiosity continue taking researchers closer towards solutions which enable us to get nearer our extragalactic explorations.The desire advancements made during mankind’s existence in terms of understanding laws governing universe drive us on towards tireless amounts of research as there remains much more unraveling mysteries surrounding outer-space right down subatomic levels; hence bridging past and future suggestions including crafting larger telescopes exploring neutron star collisions galaxy formation aims aiding humanity understand better their place amongst infinite cosmos.

Humanity’s fascination will always lie within discovering what lies beyond our planet via any means available so as long thoughts exist about other lifeforms out there traveling through space continues shaping our imagination creating ways sidestep humankind’s inherent limitations by pushing limits embarking upon uncharted territories allowing themselves a glimpse into vistas no explorer has previously laid eyes upon.