Wikipedia
2019
An electric car is an automobile that is propelled by one or more electric motors, using energy stored in rechargeable batteries. The first practical electric cars were produced in the 1880s.[1][2] Electric cars were popular in the late 19th century and early 20th century, until advances in internal combustion engines, electric starters in particular, and mass production of cheaper gasoline vehicles led to a decline in the use of electric drive vehicles.
From 2008, a renaissance in electric vehicle manufacturing occurred due to advances in batteries, illnesses and deaths due to air pollution,[3] and the desire to reduce greenhouse gas emissions.[4][5] Several national and local governments have established government incentives for plug-in electric vehicles, tax credits, subsidies, and other incentives to promote the introduction and adoption in the mass market of new electric vehicles, often depending on battery size, their electric range and purchase price. The current maximum tax credit allowed by the US Government is US$7,500 per car.[6] Compared with internal combustion engine cars, electric cars are quieter, have no tailpipe emissions, and lower emissions in general.[7]
Charging an electric car can be done at a variety of charging stations, these charging stations can be installed in both houses and public areas.[8] The two all-time best selling electric cars, the Nissan Leaf and the Tesla Model S, have EPA-rated ranges reaching up to 243 km (151 miles) and 600 km (370 miles) respectively.[9][10][11] The Leaf is the best-selling highway-capable electric car ever with more than 400,000 units sold,[12] followed by the Tesla Model S with over 400,000 units sold worldwide by June 2019.[13][14][15][16][17]
credit image:
cody techs technology and programming j
2019
An electric car is an automobile that is propelled by one or more electric motors, using energy stored in rechargeable batteries. The first practical electric cars were produced in the 1880s.[1][2] Electric cars were popular in the late 19th century and early 20th century, until advances in internal combustion engines, electric starters in particular, and mass production of cheaper gasoline vehicles led to a decline in the use of electric drive vehicles.
From 2008, a renaissance in electric vehicle manufacturing occurred due to advances in batteries, illnesses and deaths due to air pollution,[3] and the desire to reduce greenhouse gas emissions.[4][5] Several national and local governments have established government incentives for plug-in electric vehicles, tax credits, subsidies, and other incentives to promote the introduction and adoption in the mass market of new electric vehicles, often depending on battery size, their electric range and purchase price. The current maximum tax credit allowed by the US Government is US$7,500 per car.[6] Compared with internal combustion engine cars, electric cars are quieter, have no tailpipe emissions, and lower emissions in general.[7]
Charging an electric car can be done at a variety of charging stations, these charging stations can be installed in both houses and public areas.[8] The two all-time best selling electric cars, the Nissan Leaf and the Tesla Model S, have EPA-rated ranges reaching up to 243 km (151 miles) and 600 km (370 miles) respectively.[9][10][11] The Leaf is the best-selling highway-capable electric car ever with more than 400,000 units sold,[12] followed by the Tesla Model S with over 400,000 units sold worldwide by June 2019.[13][14][15][16][17]
credit image:
cody techs technology and programming j
type of electrical circuit for levitation design.
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image credit: pinterest
China and it's new car could probably use the type of technology of: electrical circuits in one cycle of higher electricity with another current in the opposite direction with less electricity while the resistor is projected to the ground beneath it as a light beam that reflects off the surface and back as the current could be changed as the ohm value as the circuit in the horizontal circuit, keeping the car afloat. |
image below
credit:
Wallpapers cave
The facts of electrically powered space ships is already present in the designs of the scifi images made by artists so that's true cifi science right there.
In space electrical circuits are cycled in a rotation of electric currents that displace faster in zero gravity and in vacuum.
credit:
Wallpapers cave
The facts of electrically powered space ships is already present in the designs of the scifi images made by artists so that's true cifi science right there.
In space electrical circuits are cycled in a rotation of electric currents that displace faster in zero gravity and in vacuum.
credit:
https://www.electricuniverse.info/electric-universe-theory/
Electric Universe theory
Comet Hale-Bopp featuring its ion tail, that results from the interaction of the comet with the electrified interplanetary plasma. Credit: E. Kolmhofer, H. Raab; Johannes-Kepler-Observatory, Linz, Austria. Source: WikiMedia CommonsThe Electric Universe theory argues that electricity plays a significant and more important role in the Universe, than is generally accepted (see also “Electricity throughout the Universe“). The theory does not dismiss gravity.
As a theory, it offers explanations of various natural and astrophysical phenomena, some of which it claims are better understood without the need for various ad hoc explanations. As with any theory, the Electric Universe makes predictions that have been tested, and is published in both peer-reviewed papers, and popular books.
The Electric Universe theory is interdisciplinary, integrating and supporting subject as diverse as the science (astronomy, geology, physics), with the soft sciences such as ancient history and comparative mythology.
Perhaps not surprisingly, the Electric Universe has also become the target of pseudo-skeptics, whose criticisms have consisted of ad hominems, misunderstanding, misrepresentation, and labeling as pseudoscience.
Key points
- Electricity plays a more significant role in the Universe than is generally accepted
- Gravity plays a significant and important role, in the appropriate regime.
- The Sun and stars are powered electrically by external currents (see Electric Sun theory)
- Planetary surface features such as some craters, dendritic structures and rilles are caused by super-lightning (see electrical scarring)
- Certain cosmic phenomena are electrical in nature, including:
- Comet tails (See comets)
- The plumes of Enceladus
- Martian dust devils
- Galaxy formation and dynamics (circumventing the need for black holes and dark matter)
image credit
youtube
youtube
image credit
ieee spectrum.
The dragon fly mission on Titan largest moon of Saturn uses rotation of rotor blades to move around, in a oxygen poor environments, so how do they still fly?.
ieee spectrum.
The dragon fly mission on Titan largest moon of Saturn uses rotation of rotor blades to move around, in a oxygen poor environments, so how do they still fly?.
model for the force existing in space as vacuum and zero gravity rotation of rotations of rotor blades and the
existence of the possibility of resourcing circular currents that rotate in space as generating electricity and the
high levels of space ship power resources.
Rotors simply have a possible circuit in them while conducting through it's matter , the electric current.
The strange sense of rotation by rotor blades in space and being lifted in zero gravity and the new drone on the Moon of Saturn as new projects for space exploration.
Article by Henryk Szubinski
2019, 30,09
planet without atmosphere
and no medium of oxygen or any of the molecules needed for the medium.
The facts of the dryness and the sun light as the only medium present. Could there be a medium based on the sun light and dryness or hard grade of minerals as the way that
the medium of vacuum could be interactive on 3 basic limitations of conduction , where only
sun light=c and mineral hard sample = density and the dryness as
+- TC
creating the variables of the changes in temperature so as to create the conditions needed for the motion of any space ship using rotor rotation as the interactions in the flux of the
rotations of man made spaceships that use the flux of rotation of blades to define the interactions of the universal medium of
c density=+-TC
as the rotation of 3 rotors
c (density) / 3 = TC (angular velocity).
As such, this universal medium could exist in motion through space as the interactive light and TC differences with a 2 blade rotations system and then apply another 3rd rotor for the hardness of planetary surfaces as the amount of gravity interaction that creates the medium of the TC change due to the sun light absorbance by the minerals and the resulting grade of hardness as applied to motion through space mediums that interact directly with the amounts of sun light, reflection and deflection as the way that it creates it's own environments similar in type to any oxygen environment where rotor blade rotation functions for lift and motion through it.
So the flux rate could be made to rotate in synchronized with the temperature change flux and the light intensity as well as the hard grade of minerals as the way that the light and TC shifts are interactive by a basic vector to and from , as it's vibration shifting of the space medium with the rotation velocity of the rotors as the 3rd function being the hard amount by which a 100 % complete rotation velocity will define the density of any planets temperature change and it's light conductability through the hard medium. So in this way artificial gravity by rotation speed certainty could make the rotors function as light and hard minerals and also as temperature adaptability as 3 levels or 300% more adaptability of the variables being any velocity as having this exponent of x to the 300