Mission Yaminiwa

STATUS:

docx File of Theory of Yaminiwa under DFIA Process for the amplification of aura density of all the commands given in that File

(Full form of the acronym DFIA to be written later)

Theory (including design of Yaminiwa, motion of Yaminiwa through ila, ‘manifestation’ of Yaminiwa at destination d2) Completed.

Developed from the beginning to the advanced level during 15 October 2019 and 6 January 2025 in more than 125000 words in docx file.

One of the most important things in electronics and communication engineering is the amplification of a signal (e.g. current, voltage, frequency) through transistors (e.g. BJT, JFET, MOSFET).

Similarly, in case of Yaminiwa, one of the most important things is the amplification of aura.

L01-Y03lm.docx File having Theory of Yaminiwa may be assumed as a signal generating file or more accurately 'positive' aura generating file.

There are about 225 commands (including 84 commands related to 42 destinations and corresponding destination points) in this file. A command is a combination of words.

This combination of words, which exists in the written form in L01 File, continuously produces aura unique to that combination of words.

That is particular command, which exists in the written form in L01 File continuously produces aura unique to that command.

Suppose, due to the production / emission of the ‘aura unique to a particular command’ from L01 File, density of the aura unique to that particular command increases by 1 unit in 24 hours. Then this 1 unit of aura density is negligible as compared to the aura density required for the manifestation of that command.

Through DFIA Process and some other methods, aura density of particular command can be amplified billions or trillions of times in relatively much less time.

Theory of Yaminiwa is a science fiction whose sample is given below. But for the the time being I don’t intend to publish the entire science fiction as a book because I am trying to find out if there is any method or process or hidden law of nature to transform fictional Yaminiwa into a real one.

mohitjoshi.com, mohit joshi, yaminiwa

Mohit Joshi

(25 August 2020)

YAMINIWA

(A hypothetical machine)

GLOM

(A hypothetical particle)

YAMDIK

(A hypothetical medium)

INISHA

(Another hypothetical medium)

ILA

(A hypothetical tunnel)

Theory of Yaminiwa covers the following topics:

About Yaminiwa

Basic structure of Yaminiwa

Properties of Gloms

Erin Ball

Command and pattern to manifest a cube of side 2.12cm, thickness 0.1mm and made of gloms through Inisha

How does a command manifest according to the pattern given in L00-Y03lm-ddMmmyy.docx File

Command and pattern to amplify the cube of side 2.12cm, thickness 0.1mm and made of gloms by 100 times through Inisha

Command and pattern to manifest an erin ball made of gloms and of diameter 4cm through Inisha

Commands to manifest seats, walls, doors, windshields, light cubes, etc in the cube of side 212cm and made of gloms

Command and pattern to manifest the rear seat inside the cube of side 212cm and made of gloms through Inisha

Command and pattern to manifest the light cube e inside the cube of side 212cm and made of gloms through Inisha

Command and pattern to manifest the outer light cube g outside the cube of side 212cm and made of gloms through Inisha

Command and pattern to manifest the number 0310, doors and windshields in the cube of side 212cm and made of gloms through Inisha

Commands to manifest control panels in the cube of side 212cm and made of gloms

Commands and pattern to manifest the inner touch keyboard, outer touch keyboard and inner screen in the cube of side 212cm and made of gloms through Inisha

Command and pattern to manifest the characters on the inner / outer screen

Commands and patterns to open and close the door e through Inisha, to open and close the top end of cuboid v through Inisha, and to lock and unlock the outer control panel

Commands and patterns to turn the light and other cubes on through Inisha and to control the lumen through each windshield

Associated with Yaminiwa 0310, 0316, 0318……, there would be Yamdik 03 having following properties

Command and pattern to manifest Yamdik 03

Command and pattern to transform Yaminiwa into mmpf inside the center of the center of the erin ball through Inisha

Ila

Destination Points and Destination Regions

Manifestation of Yaminiwa 03lm at destination d2 through Inisha and Yamdik

Manifestation of Yaminiwa 03lm at destination d2 first time (when no search for the low-density and low temperature region is required)

Shifting of Yaminiwa 03lm during the search for the low-density and / or low temperature region at destination d2

Manifestation of Yaminiwa 03lm at destination d2 first time (when the search for the low-density and / or low temperature region is required)

Examples of journeys through Yaminiwa

Shifting of Yaminiwa 03lm from one location A to the other location M within the region of destination d2

Shifting of Yaminiwa from one location A to the other location Q within the region of destination d2 (if Inisha found high-density and / or high temperature at the next location M)

The First Manifestation of Yaminiwa 0310 / 0316 / 0318

Manual for the inner and outer control panels of Yaminiwa 0310 / 0316 / 0318 / 0326 / 0342 / 0343

Command and pattern to amplify the cube of side 2.12cm, thickness 0.1mm and made of gloms by 10 times through Inisha

Command and pattern to manifest an erin ball made of gloms and of diameter 0.4cm for Weensy Yaminiwa through Inisha

Command and Pattern to manifest Weensy Yamdik 03

The First Manifestation of Weensy Yaminiwa 0326 / 0342 / 0343

Amplification of Weensy Yaminiwa by 10 times

Deamplification of Yaminiwa into Weensy Yaminiwa

The pattern of the multiplication of the aura cubes to manifest a cube of side 2.12cm, thickness 0.1mm and made of gloms

The pattern of the multiplication of the aura cubes to amplify the cube of side 2.12cm, thickness 0.1mm and made of gloms by 100 times through Inisha

The pattern of the multiplication of the aura cubes to amplify the cube of side 2.12cm, thickness 0.1mm and made of gloms by 10 times through Inisha

The pattern of the multiplication of the aura cubes to manifest the rear seat

The pattern of the multiplication of the aura spheres to manifest an erin ball made of gloms and of diameter 4cm

The pattern of the multiplication of the aura spheres to manifest Yamdik 03

The pattern of the multiplication of the aura spheres to manifest weensy erin ball

The pattern of the multiplication of the aura spheres to manifest Weensy Yamdik 03

Basic informaion about some Destinations of Yaminiwa 03lm

Mass of Yaminiwa

About Yaminiwa

Yaminiwa is a hypothetical machine capable of moving with velocity faster than the known constant value of velocity of light in vacuum. For this to happen, Yaminiwa creates a medium (named as Yamdik by Mohit Joshi) where velocity of light no longer remains 299792458 meters / second. Instead it would become 1000 light years / second. Einstein took in theory of relativity velocity of light as a constant just as an assumption and body cannot move with velocity equal to or faster than that constant value of velocity of light. However, by manifesting that medium that is by manifesting Yamdik around as well as inside the body of Yaminiwa, velocity of light would be increased to 1000 light years / second around as well as inside the body of Yaminiwa. Thus, the body of Yaminiwa surrounded and filled by such a medium would be able to move with velocity faster than the known constant value of velocity of light but not faster than 1000 light years / second, which is the velocity of light in Yamdik.

Each Yaminiwa has a number associated with it. For example, if there were six Yaminiwa (plural of Yaminiwa is also Yaminiwa), then they would be called Yaminiwa 0310, Yaminiwa 0316, Yaminiwa 0318, Yaminiwa 0326, Yaminiwa 0342, Yaminiwa 0343 respectively.

Here first 2 numerals I.e. 03 imply the type/design of Yaminiwa. So these 6 Yaminiwa are exactly same in type/design as each of these 6 Yaminiwa has same first two numerals i.e. 03. Last two numerals i.e. 10, 16, 18, 26, 42, 43 distinguish a particular Yaminiwa from the other ones.

Yamdik associated with Yaminiwa of type/design 03 is called Yamdik 03.

Yamdik 03 associated with each of these six Yaminiwa 0310, 0316, 0318, 0326, 0342, 0343 have the same properties.

Suppose a person standing outside Yaminiwa is facing the front end of Yaminiwa, then that end/side of Yaminiwa is the left end/side of Yaminiwa, which is at the left of that person from the point of view of that person and that end/side of Yaminiwa is the right end/side of Yaminiwa, which is at the right of that person from the point of view of that person.

Basically, Yaminiwa exists in the shape of a cube having side 212cm.

Thickness of each wall/side of Yaminiwa is 1 centimeter.

There exists an erin ball of diameter 4cm on the top end of the Yaminiwa.

Glued to the front end of the Yaminiwa from outside, there exist two cuboids: Cuboid v and cuboid w.

Each cuboid has size 50cm * 30cm * 106cm.

Properties of Gloms

Basic block in the creation of every Yaminiwa is a particle called Glom. As far as Yaminiwa is concerned, there is no need to know about the inner structure of a glom. There may be or may not be the inner structure of a glom.

Walls, doors, windows, etc in each Yaminiwa are made of gloms.

Some Properties of gloms are given below. These properties apply to each of the six Yaminiwa.

1. Each glom has the shape of a cube. Each side of that cube is 1 nanometer (1nm). That is a glom is a cube of side 1nm. (1nm = 10^-9m)

2. Glom always exists in solid state and doesn’t have a melting or boiling point. Instead glom has a disappearing point.

Disappearing point of a glom in Yaminiwa of type/design 03 is 1 million kelvins.

For temperatures ranging from zero kelvin to 1 million kelvins, glom remains in solid state but it beomes hotter and hotter with the rise of the temperature and once the temperature of any of the 6 sides of a glom reaches up to 1 million kelvins, the entire glom transforms into aura within a microsecond.

If Yaminiwa 03lm is near the surface of a star, then the temperature of Yamdik 03 existing outside the body of Yaminiwa 03lm may become thousands of kelvins.

SimIlarly, the outer body of Yaminiwa 03lm may become tremendously hot near the surface of a star. Even then, Yaminiwa 03lm remains completely safe even near the hottest star as the surface temperature of the hottest star (Theta-1 Orionis C1) selected as one of the destinations of Yaminiwa is less than 50000 kelvins whereas glom has disappearing point of 1 million kelvin.

Unlike paper, and like ice, glom can’t be burnt.

3. Glom has the density 600 kilograms/meter³.

Density of diamond is ~3520 kg/m³. Density of steel is ~8000 kg/m³. Density of glycerin is ~1260 kg/m³

Density of oak wood is ~600 to ~900 kg/m³. Density of pine wood is ~350 to ~850 kg/m³.

Density of Polypropylene is ~900 kg/m³. Polypropylene is one of the lightest varieties of all plastics.

4. Thickness of the glue forming the outermost layer of each of the gloms is 1 picometer.

One glom is always glued to the other glom in such a way that one side of each of them meets perfectly so that those sides of those two gloms would completely be hidden from the outside.

5. Hardness of gloms is 20 mohs.

Hardness is a measure of the ability of a material to resist wear, tear, scratching, and abrasion. Diamond is the hardest natural material.

Hardness of diamond is 10 mohs. Hardness of steel file is 6.5 mohs. Hardness of tungste is 9 mohs.

Thus, diamond is harder than steel file but the density of diamond (~3520 kg/m³) is less than that of steel file (~8000 kg/m³).

Glom is harder than diamond but the density of glom (~600 kg/m³) is less than that of diamond (~3520 kg/m³).

6. Toughness of gloms is 22000 MPa at all temperatues.

Toughness is a measure of the ability of a material to absorb energy before fracture.

Toughness or rupture strength is the amount of energy per unit volume that a material can absorb before rupturing.

Tough material can absorb a considerable amount of energy before fracture, whereas brittle materials absorb very little.

Briitle material fractures at low strains with little or no plastic deformation. Glass, ceramics, diamond are brittle.

If you hit glass, ceramic or diamond with a hammer using some force, they will break easily.

Brittle materials may be strong, but they are not tough.

Diamond is hard and strong but brittle i.e. has low toughness. Tunsgen is also hard and strong but brittle. Glom is hard, strong and tough.

Toughness of steel is 295 to 2400 MPa.

Toughness of tungsten is 47MPa at 1650 °C

7. Ultimate Tensile Strength, Yield Strength, Young’s Modulus of Elasticity of gloms are 20000 MPa, 16000 MPa, 16000 GPa respectively at all temperatues.

Strength is the maximum stress or external pressure that a material can withstand before it deforms permanently i.e. before it loses its original shape.

Ultimate tensile strength (UTS) is the maximum stress that a material can withstand while being stretched or pulled before breaking.

Yield strength is the maximum stress that a material can withstand while being stretched or pulled without causing plastic deformation. Yield point is the point at which an object ceases to be elastic and becomes plastic.

Young’s Modulus of elasticity is a property of the material that tells how easily it can stretch and deform and is defined as the ratio of tensile stress to tensile strain, where stress is the amount of force applied per unit area and strain is the extension per unit length.

Tungsten is the strongest metal in the world. Ultimate Tensile Strength, yield strength, young’s modulus of elasticity of tungsten are about 980 MPa, 750 MPa, 750 GPa respectively.

8 - 10. to be written later

11. Gloms manifest through Inisha.

An aura sphere (a sphere of diameter 1mm) of Inisha can transform into gloms that is the aura sphere of Inisha can become the sphere of gloms.

An aura cube (a cube of side 1mm) of Inisha can transform into gloms that is the aura cube of Inisha can become the cube of gloms.

12. Wavelength range of sound waves (mechanical waves) that can pass through gloms is 20mm – 20m.

Particular glom is either opaque (property 14) or optically transparent (property 13).

13. All windshields in the body of Yaminiwa 03lm are made of transparent gloms. Windshields in the body of Yaminiwa 03lm have properties simIlar to those of a window film but in these windshiels, these properties are much more effective than those in a window film.

Transparent gloms of each and every windshield in the body of Yaminiwa 03lm absorb all the electromagnetic waves except those in wavelength range of 450nm – 700nm coming from the outside of Yaminiwa 03lm and hence only visible light in wavelength range of 450nm – 700nm penetrate the windshields to enter the body of Yaminiwa 03lm.

Thus, UV (10nm – 400nm), HEV (400nm – 450nm), Infrared (750nm – 1mm) and all other electromagnetic waves do not penetrate the body of Yaminiwa of type/design 03.

When light strikes an object, it may be absorbed, reflected, or scattered at various levels.

White objects reflect all wavelengths / colours of light equally.

Colourless or transparent objects let all wavelengths / colours of light pass through.

Black objects absorb all wavelengths / colours of light.

Objects are visible due to reflection.

14. Each door and each wall (except two inner transparent walls) in the body of Yaminiwa 03lm is made of opaque gloms. Hence even visible light is not able to enter the body of Yaminiwa 03lm through them.

Opaque gloms of doors and walls in the body of Yaminiwa 03lm absorb all the electromagnetic waves (except those corresponding to their colours) coming from outside of Yaminiwa.

15. Colour of each of the opaque gloms in the body of Yaminiwa 03lm is either white having hex colour code #FFFFFF or erin having hex colour code #00FF3F or purple having hex colour code #800080.

Purple is not a spectral colour. You can have a source of monochromatic violet light (i.e. a source producing just a single wavelength), but everything that looks purple must emit both red and blue light.

In the body of Yaminiwa 03lm,

1. Front and rear ends (each of thickness 1cm) have gloms of erin colour.

2. Right and left ends (each of thickness 1cm) have gloms of white colour.

3. Top and bottom ends (each of thickness 1cm) have gloms of purple colour.

16. Through each and every windshield made of gloms in Yaminiwa of type 03, maximum amount of visible light that can enter Yaminiwa from outside at a particular time is 0, 50, 100, 500, 1000, 2000 or 4000 lux.

Associated with Yaminiwa 0310, 0316, 0318…… there would be Yamdik 03 having following properties

To understand Yamdik, consider a particular Yaminiwa e.g. Yaminiwa 0310:

Property 1 of Yamdik 03 associated with the body of Yaminiwa 03lm:

Yamdik 03 associated with the body of Yaminiwa 03lm has permanent gravitational acceleration of 9.8 m/s².

Due to Yamdik 03, the gravitational acceleration around as well as inside the body of Yaminiwa 03lm always remains 9.8 m/s².

Gravitational constant G = 6.674 * 10^-11 N m² kg^-2. To maintain the gravitational acceleration of 9.8 m/s² at each point around as well as inside the body of Yaminiwa 03lm, Yamdik 03 continuously changes the value of gravitational constant G at each of those points. That is the gravitational constant G becomes a gravitational variable in Yamdik 03 so that the gravitational acceleration g, whose value at particular point of space depends upon the gravitational constant (along with the mass of an object, distance from that object), remains constant i.e. 9.8m/s² at each point. Thus, the gravitational variable may have the different values at different points in Yamdik 03 at a particular time.

Property 2a of Yamdik 03 associated with the body of Yaminiwa 03lm:

Permittivity of Yamdik 03 associated with the body of Yaminiwa 03lm is ε_y= ε₀/ 31557600000 i.e. 31557600000 times lesser than the permittivity of vacuum.

Property 2b of Yamdik 03 associated with the body of Yaminiwa 03lm:

Permittivity of each and every material in Yamdik 03 is ε_my = ε_m/ 31557600000 i.e. 31557600000 times lesser than that without Yamdik 03.

Permittivity is the property of every material which measures the opposition offered against the formation of the electric field. The vacuum has the least possible value of permittivity. That is vacuum offers the least opposition against the formation of the electric field.

Vacuum permittivity or permittivity of free space ε₀= Electric displacement / Electric field intensity = 1 / μ₀c² =1 / {(4π × 10^-7 N / A²) (299792458² m² / s²)} ≈ 8.85418782 × 10^-12Farad / meter [m^-3kg^-1s⁴A²]

Permittivity of Yamdik 03, ε_y= 1 / μ_yc_y² = ε₀/ 31557600000

Suppose, a sealed bottle has vacuum inside. Pemittivity of vacuum is ε_0.

If this bottle is placed in a region where there exists Yamdik 03, then the permittivity of vaccum becomes ε_0./ 31557600000 i.e. equal to that of Yamdik 03. That is,

Permittivity of vaccum in Yamdik 03 (ε_0y) = Permittivity of Yamdik 03 (ε_y) = ε_0./ 31557600000

Dielectric constant or relative permittivity of a material (ε_r) is the measure of the ability of a material to store electric charge.

Dry air is an excellent dielectric and is used in variable capacitior. Vacuum is an exceptionally efficient dielectric.

The dielectric constant of vaccum is 1. At room temperature (25⁰ C), the dielectric constant of air is 1.00059 and that of water is 78.2.

Large value of dielectric constant or permittivity means larger conductivity and lesser ability to store electric charge.

Dielectric constant of a material without Yamdik 03, ε_r = ε_m (permittivity of the material) / ε₀ (permittivity of vacuum)

Dielectric constant of a material in Yamdik 03, ε_ry = ε_my(Permittivity of the material in Yamdik 03)/ ε_0y(Permittivity of vacuum in Yamdik 03) = (ε_m/ 31557600000) / (ε₀/ 31557600000) = ε_m/ ε₀ = ε_r

Thus, the dieclectric constant of a material in Yamdik 03 remains the same as that without Yamdik 03.

The dielectric constant of vaccum without Yamdik 03. = (permittivity of vacuum / permittivity of vacuum) = 1

The dielectric constant of vaccum in the region where there exists Yamdik 03 = (permittivity of vacuum in Yamdik 03 / permittivity of vacuum in Yamdik 03) = 1

That is, by the definition of dielectric constant, the dielectric constant of vaccum is 1 even in the region where there exists Yamdik 03.

Property 3a of Yamdik 03 associated with the body of Yaminiwa 03lm:

Permeability of Yamdik 03 associated with the body of Yaminiwa 03lm is μ_y= μ₀/ 31557600000 i.e. 31557600000 times lesser than the permeability of vacuum.

Property 3b of Yamdik 03 associated with the body of Yaminiwa 03lm:

Permeability of each and every material in Yamdik 03 is μ_my= μ_m/ 31557600000 i.e. 31557600000 times lesser than that without Yamdik 03.

Permeability is the property of every material which measures how easily magnetic lines of force can pass through a material.

Vacuum permeability or permeability of free space μ₀= Magnitude of magnetic induction (B) / Magnetic Field Intensity (H) = 4π × 10^-7N/A² or Henry / meter [TmA^-1]

Permeability of Yamdik 03,μ_y= 1 / ε_yc_y² = μ₀/ 31557600000

Suppose, a sealed bottle has vacuum inside. Pemeability of vacuum is μ_0.

If this bottle is placed in a region where there exists Yamdik 03, then the permeability of vaccum becomes μ₀/ 31557600000 i.e. equal to that of Yamdik 03._.

Permeability of vaccum in Yamdik 03 (μ_0y) = Permeability of Yamdik 03 (μ_y) = μ_0./ 31557600000

Property 4 of Yamdik 03 associated with the body of Yaminiwa 03lm:

Velocity of electromagnetic waves including light in Yamdik 03 associated with the body of Yaminiwa 03lm is c_y = one thousand light years / second i.e. 31557600000 (31 billion 55 crore 76 lac) times faster than the velocity of light in vacuum.

1 light year = 365.25*24*60*60 light seconds = 31557600 light seconds.

1000 light years = 31557600000 light seconds.

velocity of light in vaccum c = 1 / (ε₀μ₀)^1/2= 299792458 m/sec = 1 light sec / sec.

velocity of light in Yamdik 03, if Yamdik 03 is existing in vacuum c_y = 1 / (ε_yμ_y)^1/2= 1 / (ε₀/ 31557600000 * μ₀/ 31557600000)^1/2= 31557600000/ (ε₀μ_\0)^1/2= c * 31557600000

Light in vacuum or in free space travels with the velocity 299792458 m/sec which is 1 light sec /sec.

However, in Yamdik 03, if Yamdik 03 is existing in vacuum or free space, light travels travels with the velocity 31557600000 times faster than the velocity of light in vacuum or free space i.e. in Yamdik 03, light travels with the velocity 31557600000 light sec / sec or 1000 light years / second.

Refractive index of water is 1.33. The velocity of light in water is c / 1.33 i.e. 2.25*10⁸ m/s.

If Yamdik 03 is existing in water, then the velocity of light in that water would be c_y / 1.33.

Property 5 of Yamdik 03 associated with the body of Yaminiwa 03lm:

Frequency of electromagnetic waves including light in Yamdik 03 associated with the body of Yaminiwa 03lm is 31557600000 times more than that without Yamdik 03.

Velocity of electromagnetic waves including light c (meter/sec) = frequency v (per sec) * wavelength (meter)

Thus, the wavelengths of electromagnetic waves including light passing through Yamdik 03 remain the same as they had before entering Yamdik 03.

Property 6 of Yamdik 03 associated with the body of Yaminiwa 03lm:

Planck constant h decreases by 31557600000 times in Yamdik 03.

Thus, like its wavelength, energy of a single photon (E = hv) passing through Yamdik 03 remains the same as it had before entering Yamdik 03.

Property 7 of Yamdik 03 associated with the body of Yaminiwa 03lm:

Velocity of Yamdik 03 associated with Yaminiwa 0310 would be v(y) =1 light year per sec.

As the body of Yaminiwa 0310 would be at rest w.r.t. Yamdik 03, motion of Yamdik 03 implies motion of the body of Yaminiwa 0310. Thus, motion of Yamdik is actually the motion of Yaminiwa. Thus, velocity of Yaminiwa 0310 would be v(y) = 1 light year / sec i.e. 31557600 times faster than the normal velocity of light in the universe.

v(y) = 1 light year / second implies Yaminwa 0310 would travel 1 light year i.e. 365.25*24*60*60 light sec in a second, whereas light travels 1 light sec in a second. Thus Yaminiwa 0310 travels 365.25*24*60*60 times or 31557600 times faster than light.

Property 8 of Yamdik 03 associated with the body of Yaminiwa 03lm:

By default, the intrinsic temperature of Yamdik 03 associated with the body of Yaminiwa 03lm is 25°C that is whenever Yamdik 03 manifests, Yamdik 03 has temperature of 25°C.

Property 9 of Yamdik 03 associated with the body of Yaminiwa 03lm:

By default, to manifest Yaminiwa 0310 in a particular destination, during search for low-density region, Yamdik 03 associated with Yaminiwa 0310 would shift first time by 25 centimeters towards +x direction. (to be explained later)

Yamdik associated with particular Yaminiwa and hence that Yaminiwa would always move with particular fixed velocity i.e. 1 light year / second.

So, whether particular Yaminiwa is made to shift just a meter or a light second away or is made to reach deep sky objects, velocity of Yaminiwa would always be the same.

If I had had such a machine, I would have travelled through that machine to my 42 Most Favourite Destinations in our galaxy Milky Way.

Destination regions of stars, black holes, exoplanets, and moon selected as the destinations of Yaminiwa 03lm depend upon their radii.

These destinations are not perfect spheres. The radius of a star / black hole / exoplanet / moon is the distance from its center to a point on or near the surface.

Approximate values of radii of stars, black holes, exoplanets, and moon selected as the destination of Yaminiwa 03lm have been given in the topic: Basic informaion about some Destinations of Yaminiwa 03lm.

In the following definitions of destination regions, the value of the radius of a particular destination is assumed to be exactly as mentioned in the topic: Basic informaion about some Destinations of Yaminiwa 03lm.

Regarding Yaminiwa 03lm, Destination Region of a star / black hole / exoplanet / moon is a sphere having center at the center of the core of the star / black hole / exoplanet / moon and having radius 5 times the radius of the star / black hole / exoplanet / moon.

Largest star selected as a destination for Yaminiwa 03lm is Betelgeuse having radius 2057 ls.

Largest Exoplanet selected as a destination for Yaminiwa 03lm is Kepler-22b having radius 15290km.

Regarding Yaminiwa 03lm, Destination Region of each of the destinations having 'Outside' as the first word is a sphere of radius 87 meters with center at the destination point but that portion of the sphere which is inside or on the boundary of the destination would be out of Destination Region.

Regarding Yaminiwa 03lm, Destination Region of the destination: Naini Valley Sr. Sec. School, Haldwani, India/Bharat is a sphere of radius 87 meters with center at the destination point.

Regarding Yaminiwa 03lm, Destination Region of each of the destinations: Erg Chebbi, Ocean Antarctic, Great Pyramid of Giza, Very Large Telescope, James Clerk Maxwell Telescope, Gran Telescopio Canarias and Southern African Large Telescope is a sphere of radius 1 kilometer with center at the destination point.

Regarding Yaminiwa 03lm, Destination Region of each of the destinations: M43 De Mairan’s Nebula, M17 Omega Nebula and M16 Eagle Nebula is a sphere of radius 10000 light seconds with center at the destination point.

Regarding Yaminiwa 03lm, Destination Region of each of the destinations: Birth Place and Last Amplifying Place is a sphere of radius 87 meters with center at the destination point.

Each of six Yaminiwa 0310, 0316, 0318, 0326, 0342, 0343 can reach to 42 destinations, which are the same for each of six Yaminiwa.

42 Destinations of Yaminiwa 0310

01. Yaminiwa 0310, select destination Star Sadalsuud

Yaminiwa 0310, select that point which is 300 light seconds away from the center of the core of the Star Sadalsuud as a destination point

Distance from Earth – 538.2 ly, Radius – 34.8 million kms (50.02 R_sun) = 116.08 ls

Spectral type – G0Ib, Temperature – 5700 K, Luminosity – 2300 L_sun, Type – Yellow Supergiant

Constellation – Aquarius

The center (a sphere of diameter 1mm) of the core of the Star Sadalsuud would be one and only one. However, each and every point (a sphere of diameter 1mm) on the surface of the sphere of radius 300 light seconds and having center at the center of the core of the Star Sadalsuud would be 300 light seconds away from the center of the core of the Star Sadalsuud. Out of these points, that point would be the destination point which were in the straight line starting from the center of the erin ball of Yaminiwa and ending at the center of the core of the Star Sadalsuud.

The same applies to all other stars and exoplanets selected as destinations of Yaminiwa.

02. Yaminiwa 0310, select destination Star Deneb

Yaminiwa 0310, select that point which is 700 light seconds away from the center of the core of the Star Deneb as a destination point

Distance from Earth – 2616 ly, Radius – 141.23 million kms (202.97 R_sun) = 470.76 ls,

Spectral type – A2la, Temperature – 8525 K, Luminosity – 55000 - 196000 L_sun, Type – Blue - White Supergiant

Constellation – Cygnus

03. Yaminiwa 0310, select destination Star Vega

Yaminiwa 0310, select that point which is 20 light seconds away from the center of the core of the Star Vega as a destination point

Distance from Earth – 25.05 ly, Radius – 1.6432 million kms

Spectral type – A0V, Temperature – 9602 K, Luminosity – 50 L_sun, Type – Blue tinged White Main Sequence

Constellation – Lyra

04. Yaminiwa 0310, select destination Star Altair

Yaminiwa 0310, select that point which is 20 light seconds away from the center of the core of the Star Altair as a destination point

Distance from Earth – 16.73 ly, Radius – 1.2662 million kms

Spectral type – A7V, Temperature – 7700 K, Luminosity – 10.6 L_sun, Type – White Main Sequence dwarf

Constellation – Aquilla

05. Yaminiwa 0310, select destination Star Betelgeuse

Yaminiwa 0310, select that point which is 3000 light seconds away from the center of the core of the Star Betelgeuse as a destination point

Distance from Earth – 642.5 ly, Radius – 617.1 million kms (887 R_sun) = 2057 ls

Spectral type – M2lab, Temperature – 3500 K, Luminosity – 90000 - 150000 L_sun, Type – Red Supergiant.

Constellation – Orion

06. Yaminiwa 0310, select destination Star Enif

Yaminiwa 0310, select that point which is 700 light seconds away from the center of the core of the Star Enif as a destination point

Distance from Earth – 688 ly, Radius – 128.7 million kms (185 R_sun) = 429.29 ls,

Spectral type – K2lb, Temperature – 4379 K, Luminosity – 3895 L_sun, Type – Orange Supergiant.

Constellation – Pegasus

07. Yaminiwa 0310, select destination Star Zaurak

Yaminiwa 0310, select that point which is 300 light seconds away from the center of the core of the Star Zaurak as a destination point

Distance from Earth – 202.2 ly, Radius – 25.56 million kms (36.74.00 R_sun) = 85.2 ls,

Spectral type – M1IIIb Ca-1, Temperature – 3500 K, Luminosity – 1259 L_sun, Type – Red Giant

Constellation – Eradinus

08. Yaminiwa 0310, select destination Star Alhena

Yaminiwa 0310, select that point which is 20 light seconds away from the center of the core of the Star Alhena as a destination point

Distance from Earth – 109 ly, Radius – 2.2968 million kms (3.3 R_sun) = 7.65 ls,

Spectral type – A1.5IV+, Temperature – 9260 K, Luminosity – 123 L_sun, Type – Blue Subgiant

Constellation – Gemini

09. Yaminiwa 0310, select destination Star Theta-1 Orionis C1

Yaminiwa 0310, select that point which is 50 light seconds away from the center of the core of the Star Theta-1 Orionis C1 as a destination point

Distance from Earth – 1400ly, Radius – 5.56 million kms (7.99 R_sun) = 18.54 ls,

Spectral type – Theta¹Orionis C is blue main squence, class (Spectral type) O6V,

Temperature – 45000K, Luminosity – 204000 L_sun,

Type – Primary component C1 is O-type main sequence, other component C2 is B-type main sequence

Star Theta-1 Orionis C1 is the brightest and most massive star of the Trapezium open cluster within M42 Orion Nebula.

Theta-1 Orionis C1 is the hottest naked eye star.

UV light from Theta¹ Orionis C1 is the primary cause of the glow that illuminates the Orion Nebula.

10. Yaminiwa 0310, select destination Sun

Yaminiwa 0310, select that point which is 3 light seconds away from the center of the core of the Sun as a destination point

Distance from Earth – 149.5978707 million kms = 498.7 ls, Radius – 0.695700 million kms = 2.32061 ls,

Spectral type – G2V, Temp – 5800 K, Luminosity = 1 L_sun, Type – Yellow Dwarf.

Gaia BH1, BH2, BH3 are dormant black holes. They are too far from their companion stars to be able to rip material away from them.

These black holes are not swallowing matter. Thus, they cannot emit X-rays. Thus, X-ray telescopes had not been able to detect them.

These black holes were later discovered through the wobble in the motion of their companion stars.

11. Yaminiwa 0310, select destination Black Hole Gaia BH1

Yaminiwa 0310, select that point which is 100 kilometers away from the center of the core of the Black Hole Gaia BH1 as a destination point

Gaia BH1 is a black hole and G-type main sequence binary system and is located 1560 light-years away from Earth in the constellation Ophiuchus.

Black hole Gaia BH1 means the black hole of Gaia BH1 binary system.

Gaia BH1 is the closest known black hole system to Earth.

Gaia BH1 was discovered in September 2022 using the Gemini North telescope in Hawaii through the wobble in the motion of its companion star.

The mass of the black hole Gaia BH1 is about 9.62 times that of the sun i.e. about 9.62 solar masses.

Based on its mass, the Schwarzschild radius of the black hole Gaia BH1 is about 28 kilometers.

12. Yaminiwa 0310, select destination Black Hole Gaia BH3

Yaminiwa 0310, select that point which is 300 kilometers away from the center of the core of the Black Hole Gaia BH3 as a destination point

Gaia BH3 is a black hole and metal-poor giant binary system and is located 1926 light-years away from Earth in the constellation Aquila.

Black hole Gaia BH3 means the black hole of Gaia BH3 binary system.

It's the second-closest known black hole system to Earth.

Black hole Gaia BH3 was discovered by the ESA’s Gaia space observatory in 2024 through the wobble in the motion of its companion star.

Gaia BH3 is the most massive stellar-mass black hole known in the Milky Way that formed from the gravitational collapse of a single star.

The mass of the black hole Gaia BH3 is about 33 times that of the sun i.e. about 33 solar masses.

Based on its mass, the Schwarzschild radius of the black hole Gaia BH3 is about 96.6 kilometers.

13. Yaminiwa 0310, select destination Black Hole Cygnus X-1

Yaminiwa 0310, select that point which is 150 kilometers away from the center of the core of the Black Hole Cygnus X-1 as a destination point

Cygnus X-1 is a black hole and blue supergiant binary system and is located 7000 light-years away from Earth in the constellation Cygnus.

Black hole Cygnus X-1 means the black hole of Cygnus X-1 binary system.

Cygnus X-1 is the largest stellar-mass black hole ever discovered without the use of gravitational waves.

The mass of the black hole Cygnus X-1 is about 21 times that of the sun i.e. about 21 solar masses.

Based on its mass, the Schwarzschild radius of the black hole Cygnus X-1 is about 44 kilometers.

14. Yaminiwa 0310, select destination M43 De Mairan’s Nebula

Yaminiwa 0310, select that point which is 0.1 light year away from the center of the core of the M43 De Mairan’s Nebula as a destination point

Distance from Earth – 1600 ly. De Mairan’s Nebula is an emission-reflection nebula. It stretches across by 70ly by 55 ly. It had the Pillars of Creation stretching about 4 to 5 light years.

Reflection nebulae reflect light from a nearby star. Many small carbon grains in the nebula reflect the light.

15. Yaminiwa 0310, select destination M17 Omega Nebula

Yaminiwa 0310, select that point which is 0.1 light year away from the center of the core of the M17 Omega Nebula as a destination point

Distance from Earth – 5500 ly. Omega Nebula is an emission nebula with cluster. The Omega Nebula is about 15 light-years in diameter.

16. Yaminiwa 0310, select destination M16 Eagle Nebula

Yaminiwa 0310, select that point which is 1 light year away from the center of the core of the M16 Eagle Nebula as a destination point

Distance from Earth – 7000 ly. Eagle Nebula is an emission nebula with cluster. It stretches across by 70ly by 55 ly.

17. Yaminiwa 0310, select destination Outside IRDE, Dehradun, India/Bharat

Suppose, the top right end point of the main entrance gate to IRDE, Dehradun, India/Bharat is the point a. The point which is 10 meters above the point a is the point b.

Then Yaminiwa 0310, select that point which is 16 meters away from the point b as a destination point

The point b (a sphere of diameter 1mm) would be one and one only. However, each and every point (a sphere of diameter 1mm) on the surface of the sphere of radius 16 meters and having center at the point b would be 16 meters away from the point b. The straight line starting from the center of the erin ball of Yaminiwa and passing through the point b would intersect that sphere of 16 meters at two points. Out of these two points, that point would be the destination point which were inside the destination region of that destination. If both points are inside the destination region, then that point would be the destination point whose distance from the center of the erin ball were lesser.

The same applies to all other earthly destinations of Yaminiwa.

18. Yaminiwa 0310, select destination Outside NASA, Washington, DC, United States of America

Suppose, the top right end point of the main entrance gate to NASA, Washington, DC, United States of America is the point a. The point which is 10 meters above the point a is the point b.

Then Yaminiwa 0310, select that point which is 16 meters away from the point b as a destination point

19. Yaminiwa 0310, select destination Outside CERN, 1, Esplanade des Particules, Geneva, Switzerland

Suppose, the top right end point of the main entrance gate to CERN, 1, Esplanade des Particules, Geneva, Switzerland is the point a. The point which is 10 meters above the point a is the point b.

Then Yaminiwa 0310, select that point which is 16 meters away from the point b as a destination point

20. Yaminiwa 0310, select destination Outside Max Planck Institute for Extraterrestrial Physics, Garching, near Munich, Germany

Suppose, the top right end point of the main entrance gate to Max Planck Institute for Extraterrestrial Physics, Garching, near Munich, Germany is the point a. The point which is 10 meters above the point a is the point b.

Then Yaminiwa 0310, select that point which is 16 meters away from the point b as a destination point

21. Yaminiwa 0310, select destination Outside Sydney Institute for Astronomy, School of Physics A28, Australia

Suppose, the top right end point of the main entrance gate to Sydney Institute for Astronomy, School of Physics A28, Australia is the point a. The point which is 10 meters above the point a is the point b.

Then Yaminiwa 0310, select that point which is 16 meters away from the point b as a destination point

22. Yaminiwa 0310, select destination Outside European Space Agency, Paris, France

Suppose, the top right end point of the main entrance gate to European Space Agency, Paris, France is the point a. The point which is 10 meters above the point a is the point b.

Then Yaminiwa 0310, select that point which is 16 meters away from the point b as a destination point

23. Yaminiwa 0310, select destination Great Pyramid of Giza, Giza City, Giza, Greater Cairo, Egypt

Yaminiwa 0310, select that point which is 100 meters above the highest point of the Great Pyramid of Giza as a destination point

Great Pyramid of Giza is the oldest and largest of the pyramids in the Giza pyramid complex. It is 4600 years old.

It is 481 feet high.

24. Yaminiwa 0310, select destination Erg Chebbi, Morocco

Yaminiwa 0310, select that point which is 100 meters above the highest point of the second highest dune in Erg Chebbi as a destination point

Erg Chebbi is one of Morocco’s several ergs – large seas of dunes. There are other ergs such as Erg Chigaga. These ergs are not part of the Sahara desert which lies some distance to the south.

25. Yaminiwa 0310, select destination Ocean Antarctic

Yaminiwa 0310, select that point which is 100 meters above the highest point of the most massive iceberg in Ocean Antarctic as a destination point

26. Yaminiwa 0310, select destination Naini Valley Sr. Sec. School, Haldwani, India/Bharat

Suppose, the top right end point of the main entrance gate to Naini Valley Sr. Sec. School, Haldwani, India/Bharat is the point a. The point which is 10 meters above the point a is the point b.

Then Yaminiwa 0310, select that point which is 16 meters away from the point b as a destination point

27. Yaminiwa 0310, select destination Very Large Telescope, Paranal Observatory, Cerro Paranal, Antofagasta, Chile

Yaminiwa 0310, select that point which is 100 meters away from the center of the primary mirror of Antu Telescope of Very Large Telescope as a destination point

VLT located at Paranal Observatory is world’s most advanced optical telescope. VLT is operated by the European Southern Observatory.

Cerro Paranal is a mountain in the Atacama Desert of northern Chile and is the home of the Paranal Observatory.

The Very Large Telescope (VLT) has four Unit Telescopes (UTs), each with a primary mirror that is 8.2 meters in diameter.

The Very Large Telescope (VLT) also has four auxiliary telescopes (ATs), each with a mirror that is 1.8 meters in diameter.

ATs are movable and can be used when the VLT's main telescopes are being used for other projects.

Antu is one of four main telescopes that make up the Very Large Telescope (VLT) in Chile. The other telescopes are named Kueyen, Melipal, and Yepun.

The center (a sphere of diameter 1mm) of the primary mirror of Antu Telescope would be one and one only. However, each and every point (a sphere of diameter 1mm) on the surface of the sphere of radius 100 meters and having center at the center of the primary mirror of Antu Telescope would be 100 meters away from the center of the primary mirror of Antu Telescope. Out of these points, that point would be the destination point which were in the straight line starting from the center of the erin ball of Yaminiwa and ending at the center of the primary mirror of Antu Telescope.

The same applies to the destinations James Clerk Maxwell Telescope, Gran Telescopic Canarias and Southern African Large Telescope.

28. Yaminiwa 0310, select destination James Clerk Maxwell Telescope, Mauna Kea Observatories, Hawaii County, United States of America

Yaminiwa 0310, select that point which is 100 meters away from the center of the primary mirror of James Clerk Maxwell Telescope as a destination point

The Mauna Kea Observatory is operated by the University of Hawaii and lies atop the peak of Mauna Kea, a dormant volcano on north-central Hawaii island.

There are 13 telescopes at the summit of Mauna Kea, Hawaii.

These 13 telescopes are housed in 12 facilities and are part of the Mauna Kea Observatories. one of them is optical / infrared telescope. JCMT is a submillimeter-wavelength radio telescope. JCMT has 15-meter diameter primary mirror (reflector). It is the largest astronomical telescope in the world. JCMT is operated by the East Asian Observatory. It is a part of Event Horizon Telescope.

29. Yaminiwa 0310, select destination Gran Telescopio Canarias, Roque de los Muchachos Observatory, Spain

Yaminiwa 0310, select that point which is 100 meters away from the center of the primary mirror of Gran Telescopio Canarias as a destination point

Gran Telescopio Canarias (GranTeCan or GTC) located at the Roque de los Muchachos Observatory on the island of La Palma, in the Canary Islands is one of the largest single-aperture optical (reflecting) telescopes in the world.

The Gran Telescopio Canarias (GTC) has a primary mirror made of 36 hexagonal segments. These segments fit together to form a spherical mirror that is 10.4 meters in diameter.

30. Yaminiwa 0310, select destination Southern African Large Telescope, South African Astronomical Observatory, Sutherland, Africa

Yaminiwa 0310, select that point which is 100 meters away from the center of the primary mirror of Southern African Large Telescope as a destination point

Southern African Large Telescope (SALT) located at South African Astronomical Observatory (SAOO) is the largest single-aperture optical telescope in the southern hemisphere, and amongst the largest in the world.

The Southern African Large Telescope has a primary mirror made up of 91 hexagonal segments, each 1 meter in size. These segments fit together to form a spherical mirror that is 11 meters in diameter.

31. Yaminiwa 0310, select destination Exoplanet Kepler-22b

Yaminiwa 0310, select that point which is 30000 kilometers away from the center of the core of the Exoplanet Kepler-22b as a destination point

Exoplanet Kepler-22b orbits the G-type main sequence star i.e. Sun-like star Kepler-22 (type G5V) which is about 587 light years from Earth in the constellation Cygnus. Gravity: 23.52 m/s², Radius: 15290 km, orbital period: 290 days, Surface temperature: 22°C

32. Yaminiwa 0310, select destination Exoplanet Kepler-452b

Yaminiwa 0310, select that point which is 20000 kilometers away from the center of the core of the Exoplanet Kepler-452b as a destination point

Exoplanet Kepler-452b orbits the G-type main sequence star i.e. Sun-like star Kepler-452 (G2V) which is about 1402 light years from Earth in the constellation Cygnus. Gravity: 18.63 m/s², radius: 9556.5 km, Temperature: -8°C

33. Yaminiwa 0310, select destination Exoplanet Kepler-186f

Yaminiwa 0310, select that point which is 20000 kilometers away from the center of the core of the Exoplanet Kepler-186f as a destination point

Exoplanet Kepler-186f orbits the M-type main sequence star i.e. Red Dwarf Kepler-186 (M1V) which is about 587 light years from Earth in the constellation Cygnus, Radius: 7454.1 km, Orbital period: 130 days, Temperature: -85°C

34. Yaminiwa 0310, select destination Exoplanet Kepler-442b

Yaminiwa 0310 , select that point which is 20000 kilometers away from the center of the core of the Exoplanet Kepler-442b as a destination point

Exoplanet Kepler-442b orbits the K-type main sequence star Kepler-442 (K5V) which is about 1200 light years from Earth in the constellation Lyra. Gravity: 13 m/s², Radius: 8537. Orbital period: 112 days, Temperature: -40°C. K-type main sequence star is cooler and smalller than the Sun.

35. Yaminiwa 0310, select destination Exoplanet Kepler-62f

Yaminiwa 0310, select that point which is 20000 kilometers away from the center of the core of the Exoplanet Kepler-62f as a destination point

Exoplanet Kepler-62f orbits the K-type main sequence star Kepler-62 (K2V) which is about 1207 light years from Earth in the constellation of Lyra. Gravity: 12.74 m/s², Radius: 8983.1km, Orbital period: 267 days, Temperature: -65°C

36. Yaminiwa 0310, select destination Exoplanet Ross 128 b

Yaminiwa 0310, select that point which is 20000 kilometers away from the center of the core of the Exoplanet Ross 128 b as a destination point

Exoplanet Ross 128 b orbits the M-type main sequence star i.e. Red Dwarf Ross 128 (M4V) which is about 11 light years from Earth in the constellation of Virgo, Gravity: 10.945 m/s², Radius: 10200 km, Orbital period: 237 hours, Temperature: -14°C

37. Yaminiwa 0310, select destination Exoplanet 55 Cancri e

Yaminiwa 0310, select that point which is 20000 kilometers away from the center of the core of the Exoplanet 55 Cancri e as a destination point

Exoplanet 55 Cancri e orbits the G-type main sequence star i.e. Sun-like star 55 Cancri A (type G8V) which is about 40 light years from Earth in the constellation Cancer. Gravity: 20.99 m/s², Radius: 11946 km, Orbital period: 0.74 day, Temperature: 2400°C

55 Cancri e just 0.015 astronomical units from its star. Because of its tight orbit, the planet is extremely hot, with daytime temperatures reaching 2400°C

38. Yaminiwa 0310, select destination Exoplanet K2-18b

Yaminiwa 0310, select that point which is 30000 kilometers away from the center of the core of the Exoplanet K2-18b as a destination point

Exoplanet K2-18b orbits the M-type main sequence star i.e. Red Dwarf K2-18 (type M3V) which is about 124 light years from Earth in the constellation Leo. Gravity: 20.99 m/s², Radius: 14271 km, Orbital period: 33 days, Temperature: -23°C.

39. Yaminiwa 0310, select destination Exoplanet HD 40307g

Yaminiwa 0310, select that point which is 30000 kilometers away from the center of the core of the Exoplanet HD 40307g as a destination point

Exoplanet HD 40307 g orbits the orbits the K-type main sequence star HD 40307 g (type K2.5V) which is about 42 light years from Earth in the constellation Pictor. Gravity: 13.93 m/s², Radius: 15227 km, Orbital period: 197.8 days, Temperature: 9°C.

40. Yaminiwa 0310, select destination Exoplanet TOI-715 b

Yaminiwa 0310, select that point which is 20000 kilometers away from the center of the core of the Exoplanet TOI-715b as a destination point

Exoplanet TOI-715 b orbits the M-type main sequence star i.e. Red Dwarf TOI-715 (type M4V) which is about 137 light years from Earth in the constellation Volans. Gravity: 12.25 m/s², Radius: 9800 km, Orbital period: 19 days, Temperature: -39°C.

41. Yaminiwa 0310, select destination Moon Enceladus

Yaminiwa 0310, select that point which is 400 kilometers away from the center of the core of the Moon Enceladus as a destination point

Satellite of Saturn, Gravity: 0.113 m/s², Radius: 252km, Surface is mostly water ice. Enceladus's ice shell is 30 to 40km thick, floating on an ocean 10km deep.

42. Yaminiwa 0310, select destination Moon Europa

Yaminiwa 0310, select that point which is 2000 kilometers away from the center of the core of the Moon Europa as a destination point

Satellite of Jupiter, Gravity: 1.315 m/s², Radius: 1560km, Surface is mostly water ice. Europa’s ice shell is 15 to 25km thick, floating on an ocean 60 to 150km deep.

Having reached a destination point, Yaminiwa 0310 may be shifted in any of the six directions (left, right, forward, back, top, bottom) and hence Yaminiwa 0310 would be able to reach very near the corresponding destination. Yaminiwa 0310 may even land on a planet, exoplanet, on Erg Chebbi, etc.

Commands to shift Yaminiwa 0310 at any of these 42 destinations

Yaminiwa 0310, shift towards left end by x centimeter(s) / meter(s) / km(s) / light second(s)

Yaminiwa 0310, shift towards right end by x centimeter(s) / meter(s) / km(s) / light second(s)

Yaminiwa 0310, shift towards front end by x centimeter(s) / meter(s) / km(s) / light second(s)

Yaminiwa 0310, shift towards rear end by x centimeter(s) / meter(s) / km(s) / light second(s)

Yaminiwa 0310, shift towards top end by x centimeter(s) / meter(s) / km(s) / light second(s)

Yaminiwa 0310, shift towards bottom end by x centimeter(s) / meter(s) / km(s) / light second(s)

x may take any integer value ranging from 1 to 1000

Thus, Yamdik 03 associated with Yaminiwa 0310 would shift and hence Yaminiwa 0310 would shift by the distance and in the direction mentioned through the command

One or more of these commands may be used to shift Yaminiwa 0310 to the desired position in the destination region of any particular destination. Any of these commands may be used more than once.

To return from any of these 42 destinations to the Birth Place of Yaminiwa 0310, commands are:

Yaminiwa 0310, select destination Birth Place

Yaminiwa 0310, select that point where the center of the erin ball of Yaminiwa 0310 was after her birth as a destination point

Yaminiwa 0310 would manifest at the destination Birth Place. If required, pilot in the destination region of destination Birth Place may use any of the six commands to land Yaminiwa anywhere in the region of the Birth Place.

However, instead of Birth Place, Yaminiwa may also be taken from one of these 42 destinations to any other destinations.

If a pilot intended to go from the Star Deneb to the Star Alhena, then Star Deneb would become destination d1 and Star Alhena would be destination d2. Thus in this case d1 = 02 (Star Deneb) and d2 = 08 (Star Alhena) and new ila would be required between destination point of destination d1 = 02 (Star Deneb) and destination point of destination d2 = 08 (Star Alhena)

Thus, at destination d1 = 02 (Star Deneb), the pilot inside Yaminiwa 0310 would give the commands to select destination d2 = 08 (Star Alhena) and a destination point of destination d2.

Yaminiwa 0310, select destination Star Alhena

Yaminiwa 0310, select that point which is 20 light seconds away from the center of the core of the Star Alhena as a destination point

As far as last command given above is concerned, only the radius of the star should be known. It doesn’t matter what is the distance between Deneb and Alhena.

Mass of Yaminiwa

Volume of the cube of side 212cm and thickness 1cm which is occupied by gloms: (2.12)³ – (2.10)³ = 0.267128m³

Volume of erin ball of diameter 4cm and thickness 1cm which is occupied by gloms: (4/3)*pi*(0.02)³ – (4/3)*pi*(0.01)³ = 0.0002932m³

Volume of rear seat: 2*0.39*0.01 = 0.0078m³

Volume of middle seat: 2*0.39*0.01 = 0.0078m³

Volume of front seat: 1*0.39*0.01 = 0.0039m³

Volume of each of the two walls: 2.1*1.21*0.01 = 0.02541m³

Volume of the transparent wall: 2.1*2.1*0.01 = 0.0441m³

Volume of another transparent wall: 0.69*0.81*0.01 = 0.005589m³

Volume of each of 18 inner cubes and 4 outer cubes which is occupied by gloms: 0.06³ – 0.04³= 0.000152m³

Volume of cuboid v which is occupied by gloms: 0.5*0.3*1.06 – 0.48*0.28*1.04= 0.019224m³

Volume of cuboid w which is occupied by gloms: 0.5*0.3*1.06 – 0.48*0.28*1.04= 0.019224m³

Each of the seven windshields and each of the six doors are part of the cube of side 212cm, so their gloms do not occupy any extra volume.

Thus, volume occupied by the gloms in Yaminiwa:

0.267128m³+ 0.0002932m³+ 0.0078m³+ 0.0078m³+ 0.0039m³ + 2 * 0.02541m³+ 0.0441m³+ 0.005589m³+ 22 * 0.000152m³+ 0.019224m³+ 0.019224m³= 0.4292222m³

Density of gloms = 600kg/m³

Thus, mass of Yaminiwa: 0.4292222m³* 600kg/m³= 256.62Kg

Having read this web page, there would arise a lot of questions in your mind. I already have answers of best part of those questions but for the time being, I am reluctant to explain anything more.

You would have answers of all to your questions in due course of time.

The name Yaminiwa is inspired by Yamini.

Yamini means Starry Night in Sanskrit.

The name GLOM is inspired by MOHIT and LURUNG

ILA means Earth in Hindi

The name Yamdik is inspired by ........ (To be written later)

The name Inisha is inspired by ........ (To be written later)

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