origins of Hindu Print

Introduction to my art The importance of this artwork is hard to judge, because the conversation itself can travel in circles. To help to break this cycle, let’s introduce some names; Jesus Christ. Guru Nanak. Buddha. Krishna. Muhammad. Moses. For Science you have; Charles Hilton. Edwin Hall. Henri Poincare. Isaac Newton. Steve Hawkins. Thomas Edison. August Möbius. Nicola Tesla, and Einstein. For Philosophy you have; Aristotle. Plato. Rene discards. Giorgio Bruno, and Freud. And for Art you have; Salvador Dali. Leonardo da Vinci. Pablo Picasso. All these wonderful people have one thing in common; Either they energized the fourth dimension, or they tried to study/ paint it. Thus, it is an important subject, within the different sectors ; Science, religion, philosophy, art. By studying these mathematical formulae, the following questions can be studied; 1. What is the crucial difference between the third dimension and other dimensions? 2. Are all equals the same? 3. The law of polarisation? 4. The law of position? 5. The law of entrance? 6. What are the sizes of other dimensions and how do they compare to the third dimension? 7. Does the law of supply and demand apply in other dimensions and if so what does it look like? 8. What is the Primal overall Direction of the force? 9. We have three primary colours which we know. What are the primary colours in the other dimension? 10. Can we Express loudness in a 2-dimensional form? What a fantastic time to be alive!! Interstellar travel is still possible, but as far as we know, the best option is to think fairly local for now. The nearest star system to us is Alpha Centauri. In 2016, scientists discovered an Earth-size planet in the habitable zone of one of Alpha Centauri's stars, a red dwarf called Proxima Centauri. (There's debate about whether Proxima Centauri's stellar activity has too much radiation for life to exist on its planet, but the jury is still out on that.) Alpha Centauri is close enough to be intriguing: just about four years away if you travel at the speed of light. But at slower speeds, it's still pretty far. If the Voyager 2 spacecraft (which launched in 1977 and breached interstellar space in 2012) had gone in that direction, it wouldn't reach Alpha Centauri for another 75,000 years. We'll need a quicker solution. Back in 1998, one of Landis' interstellar concepts was funded by NASA's Innovative Advanced Concepts (NIAC) program; NIAC examines far-out ideas for space exploration that may not be used for decades. In essence, Landis' proposal suggested using lasers to push a spacecraft equipped with sails, building on ideas published by physicist Robert Forward in 1984. The concept was later picked up by the Breakthrough Starshot group, which in 2016 announced that it hopes to eventually send mini-spacecraft to Alpha Centauri. Landis said his idea would work for people, but unless you made the spacecraft very small (as Breakthrough proposes doing), you would not get to Alpha Centauri quickly. It's only if you "send a very small probe," he told Space.com, "that you could make it smaller and faster, and perhaps get to the nearest star in something less than a lifetime." NIAC continues to fund interstellar studies, as it did in 2017 when it awarded a Phase 1 grant to Heidi Fearn at the Space Studies Institute in Mojave, California. The type of interstellar spacecraft propulsion studied in this grant might use Mach effects to move across the universe. The term "Mach effects" refers to how the rest masses of objects vary as they accelerate, with changes occurring to their internal energies Several consistent medical problems have been encountered by astronauts during space flights. These include vestibular dysfunction, weight loss, increase in height, upward fluid shift, anemia, cardiovascular deconditioning, muscle atrophy, and bone loss. Almost all of these alterations can be attributed to the absence of gravitational force. Most are adaptive in nature and therefore reversible, but readaptation after returning to earth may cause further problems (e.g., in the case of vestibular dysfunction). The most recalcitrant and disturbing of all these problems is the relentless bone loss associated with negative calcium balance. This problem appears to be irreversible, and critical demineralization can occur after two years in a weightless state. Unless its mechanism is elucidated and preventive measures are taken, the bone loss may prove to be the medically limiting factor for the duration of space flight.

Print:Giclee on Fine Art Paper

Size:10 W x 10 H x 0.1 D in

Size with Frame:15.25 W x 15.25 H x 1.2 D in

Delivery Time:Typically 5-7 business days for domestic shipments, 10-14 business days for international shipments.