IridiumAtomic Number: 77Atomic Weight: 192.217Melting Point: 2719 K (2446°C or 4435°F)Boiling Point: 4701 K (4428°C or 8002°F)Density: 22.42 grams per cubic centimeterPhase at Room Temperature: SolidElement Classification: MetalPeriod Number: 6 Group Number: 9 Group Name: noneWhat's in a name? From the Latin word for rainbow, iris.Say what? Iridium is pronounced as i-RID-i-em.History and Uses:

Iridium and osmium were discovered at the same time by the British chemist Smithson Tennant in 1803. Iridium and osmium were identified in the black residue remaining after dissolving platinum ore with aqua regia, a mixture of 25% nitric acid (HNO3) and 75% hydrochloric acid (HCl). Today, iridium is still obtained from platinum ores and as a by-product of mining nickel.

Pure iridium is very brittle and is nearly impossible to machine. It is primarily used as a hardening agent for platinum. Platinum-iridium alloys are used to make crucibles and other high temperature equipment. Iridium is also alloyed with osmium to make the tips of fountain pens and compass bearings.

Iridium is the most corrosive resistant metal known. For this reason, the standard meter bar was created from an alloy of 90% platinum and 10% iridium. This bar was replaced as the definition of the meter in 1960 when the meter was redefined in terms of the orange-red spectral line of krypton-86.

A thin, worldwide layer of iridium exists in a layer of sediment that was put down at the end of the Cretaceous period. Since meteors and asteroids contain a higher percentage of iridium than the earth's crust, this iridium enriched layer is seen as evidence that the earth was struck by a large meteor or asteroid at that time. Dust from the impact would have spread around the globe, depositing the iridium. The dust also would have blocked the sun for a time, resulting in the extinction of many plant and animal species, including the dinosaurs.

COPPER IRIDIUM LEBBO COIN(This document contains reliable knowledge and a Business proposal for the Copper Iridium

Lebbo Coin.)

 

JAYADEVAN

 

Introduction

Copper Iridium coins are magical and powerful. They will stop a bus when carried in it by

stopping ignition, but not when wrapped in a carbon paper. A candle flame bends towards this

coin. When rice is brought near the coin, it gets attracted towards the coin. You can find an

electric circuit tester indicating light when touched with, on the coin. Your electronic watch will

stop when brought near this coin!

 

A device in Germany (details unknown) which cost / worth 1 million dollars absorbs power of

the coin. The Copper Iridium coins called 1616 have three magical points, which disables entire

power in any form near it. To test the coin, it costs 0.1 million dollar chemicals. The complete

test can be done only in remote sea shores.

 

Facts about the 1616 Copper Iridium Coin

In 1603 AD, East India Company was formed in India, with establishments in various places,

with head office in England. The company started minting coins to do business according to its

new system.

 

In the year 1616 AD, there was a Grahakutami (A complete solar eclipse) which lasted for more

than 5 hours in India. The Britishers, with the help of Indian Rishis minted Copper coins with

Copper Iridium metal in assorted weights and sizes. The coins were hand made.

 

Only 16 pieces of the coins were made totally. In order to preserve the precious lebbos, the

Rishis engraved the currency denomination prevalent on one side and the nine planets on the

other side. Iridium Lebbo coins are also called Navagraha Lebbos. Lebbo in Greek means sun

guard. The coins have the provision to be charged when required. The special range of powers

of the coins can be activated by charging the coin on the three pin points, each having

different functions. After charging the coin with MRC 87 chemicals, a magnetic attraction of

carbohydrate contents is generated on the coin.

 

 

Sun (Surya), Moon (Chandra), Mars (Mangla), Mercury (Budha), Neptune (Guru), Jupiter

(Sugra), Saturn (Sani), Uranus (Ragu) and Venus (Kethu) are the planets engraved on the coin

and are interconnected with tiny veins, all leading to the charging point.

 It is said that, millions of years ago, fragments of sun and other planets might have fallen on earth, particularly in South India sub continent. It is also said that the gurus had gone to all the planets to collect the metal from each planet. The material from other planets that reached earth thus is used to imprint the corresponding planet on the coin. 

Our ancestors made the metal classification ‘space metals’. Metallurgists have discovered and

included three metals under this group, Ikkidium, Iridium and Virenium. These metals were

heavily priced in the 16th century and Rishis hand made the lebbo coins using the Iridium.

 

In 1616 The British East India Company had presented one 200 gram Iridium Lebbo coin to

King Leo of Hong Kong. Later in 1871, it was auctioned for 200 Billion dollars in the U.S.A.

International exhibition.

 

Weights and Quantities of Iridium Lebbo coins available

The different weights and quantities of the Iridium Lebbo coins made in 1616 are:

42 grams 3 pieces

65 grams 3 pieces (as errosimimic shape only)

82 grams 3 pieces (the three miraculous pin points give light indication)

200 grams 3 pieces

260 grams 2 pieces

300 grams 2 pieces (Ser denomination)

 

How the 1616 Copper Iridium coin looks

One side consists of Navagrahas (Nine planets) embedded on it by the great gurus and

Rishis of those time. The other side has the charging point divided into three a dotted

hole through which charging of the coin is possible. Also, inscribed are E; IC and ANNA

1616. For more information see the images of the sides, shown below:

 

 

Precautions

The coin has to be kept away from any HDRC Powder, which contains chemicals like Metal

oxide plain powders, Metaquide liquid drops. Any tests or experiments with such materials can

damage the precious Copper Iridium Lebbo coin.

 

 

Scope of the Iridium Lebbo Coin

We believe, the magical powers of the Iridium Lebbo Coin can be utilized for commercial

purpose in various Industries like:

Medical research

Aviation

Telecom and Communication

Defense

Satellite systems

Power Systems

Mining

Disaster relief

Media and entertainment

Oil and gas exploration

Experiments on other Iridium Copper coins on the globe have proved that

The power of iridium copper coins can be extended to making potassium gold cyanide

from the chaff of rice kernels

 

 

References

For more information on the

material, readers can go through

the following:

Sputnik

(January 1985)

World famous metals

(Serial No 2)

Rare space metal by N.Brocinam,

London S.M.P.C.

(Page 101)

Rare space metals written by

L.Fernando, west germany

(Page 41 to 43)

Andrews Lebbo Grapy

(page 40)

This article is about the chemical element.

Iridium (IPA: /ɪˈɹɪdiəm/) is a chemical element in the periodic table that has the symbol Ir and atomic number 77. A dense, very hard, brittle, silvery-white transition metal of the platinum family, iridium is used in high strength alloys that can withstand high temperatures and occurs in natural alloys with platinum or osmium. Iridium is notable for being the most corrosion resistant element known and for its significance in the determination of the probable cause of the

77

osmium ← iridium → platinumRh↑Ir↓

Mt Periodic Table - Extended Periodic Table

General

Name, Symbol, Number iridium, Ir, 77

Chemical series transition metals

Group, Period, Block 9, 6, d

Appearance

silvery white

Atomic mass 192.217 (3)  g·mol−1

Electron configuration [Xe] 4f14 5d7 6s2

Electrons per shell 2, 8, 18, 32, 15, 2

Physical properties

Phase solid

Density (near r.t.) 22.65  g·cm−3

Liquid density at m.p. 19  g·cm−3

Melting point2719 K(2446 °C, 4435 °F)

Boiling point4701 K(4428 °C, 8002 °F)

Heat of fusion 41.12  kJ·mol −1

Heat of vaporization 231.8  kJ·mol −1

Heat capacity (25 °C) 25.10  J·mol−1·K−1

demise, by a meteorite strike, of the dinosaurs. It is used in high temperature apparatus, electrical contacts, and as a hardening agent for platinum.

Contents

[hide] 1 Notable characteristics 2 Applications 3 History

o 3.1 KT Boundary 4 Occurrence 5 Isotopes 6 Precautions 7 References

8 External links

Notable characteristics

A platinum group metal, iridium is white, resembling platinum, but with a slight yellowish cast. Due to its extreme hardness and brittle properties, iridium is difficult to machine, form, or work. Iridium is the most corrosion-resistant metal known. Iridium cannot be attacked by any acids or by aqua regia, but it can be attacked by molten salts, such as NaCl and NaCN.

The measured density of this element is only slightly lower than that of osmium, which is often listed as the most dense element known. However, calculations of density from the space lattice may produce more reliable data for these elements than actual measurements and give a density of 22650 kg/m³ for iridium versus 22610 kg/m³ for osmium. Definitive selection between the two is therefore not possible at this time.

Applications

The principal use of iridium is as a hardening agent in platinum alloys. Other uses:

For making crucibles and devices that require high temperatures. Electrical contacts (notable example: Pt/Ir sparkplugs). Osmium/iridium alloys are used for compass bearings. Iridium is commonly used in complexes like Ir(mppy)3 and other complexes in

polymer LED technology to increase the efficiency from 25% to almost 100% due to triplet harvesting.

Used in high-dose-radiation therapy for the treatment of prostate and other forms of cancer

Iridium is used as a catalyst for carbonylation of methanol to produce acetic acid

At one time iridium, as an alloy with platinum, was used in bushing the vents of heavy ordnance and, in a finely powdered condition (iridium black), for painting porcelain black.

Iridium was used to tip of some early twentieth century fountain pen nibs. The tip material in modern ballpoint pens is still conventionally called "iridium," although there is seldom any iridium in it.

History

Iridium was discovered in 1803 by Smithson Tennant in London, England along with osmium in the dark-colored residue of dissolving crude platinum in aqua regia (a mixture of hydrochloric and nitric acid). The element was named after the Latin word for rainbow (iris; iridium means "of rainbows") because many of its salts are strongly colored. Some linguists have claimed the word-root is derived from "irid", which means "seven" in the Lezghi Language presently spoken in Azerbaijan and Daghestan.

An alloy of 90% platinum and 10% iridium was used in 1889 to construct the standard metre bar and kilogram mass, kept by the International Bureau of Weights and Measures near Paris. The metre bar was replaced as the definition of the fundamental unit of length in 1960 (see krypton), but the kilogram prototype is still the international standard of mass.

HauptSeite

Iridium

</B< TD>