Haplogroup T2 is a human mitochondrial DNA (mtDNA) haplogroup. It is believed to have originated in the Near East around 19,000-26,000 years ago. Individuals carrying the T2 haplogroup can be found in various populations, but it is more common in certain regions like Europe and the Middle East.

Haplogroup U is a human mitochondrial DNA (mtDNA) haplogroup that is found in populations across Europe, the Middle East, and South Asia. It is one of the oldest and most widespread haplogroups in Europe, with several subclades that are associated with different geographic regions and migration patterns. Haplogroup U is believed to have originated in the Near East around 55,000 years ago.

In human genetics, Haplogroup U is a human mitochondrial DNA (mtDNA) haplogroup, a group of people who descend from a woman in the Haplogroup R (mtDNA) branch of the Genographic tree, who lived around 55,000 years ago. Mitochondrial DNA is passed from mother to daughter; it does not include the cell's nucleus where DNA is found, but still can be traced through maternal lines. Haplogroup U is found throughout Europe, and contains many subgroups, each reflecting unique geography and history. Among its subgroups is the Haplogroup K (mtDNA) branch. Known haplogroups are assigned the following letter codes: A, B, C, CZ, D, E, F, G, H, pre-HV, HV, I, J, pre-JT, JT, K, L0, L1, L2, L3, L4, L5, L6, L7, M, N, P, Q, R, S, T, U, UK, V, W, X, Y, and Z. If you are a Caucasian with haplogroup U, be aware that there is increased risk from prostate and renal cancer. The oldest haplogroup is L, which is found in sub-Saharan Africa.

The R-M512 haplogroup is significant in human genetic ancestry as it is a branch of the R1b haplogroup, which is one of the most common paternal lineages in Western Europe. This haplogroup is believed to have originated in the Near East and spread into Europe during the Neolithic period, playing a key role in the genetic history of many European populations.

E1b1a8a is a Y-DNA Haplogroup which is most common in West-central Africa (Nigeria, Benin, Cameroon). Tribes associated to be carriers of this haplogroup e.g the Yoruba, Edo, Igbo, Efik, Ibibio and Ijaw among many other tribes.

The R-M512 haplogroup is significant in human genetic history because it is a branch of the R1b haplogroup, which is one of the most common paternal lineages in Western Europe. This haplogroup is believed to have originated in the Near East and spread into Europe during the Neolithic period, playing a key role in the genetic ancestry of many modern European populations.

To determine your haplogroup from raw genetic data, you can use online tools like Promethease or Genetic Genie. Upload your raw genetic data file from a service like 23andMe or AncestryDNA, and these tools will analyze your DNA to provide information on your haplogroup.

To determine your mtDNA haplogroup using AncestryDNA, you can access your genetic information on the AncestryDNA website and look for the specific markers associated with mitochondrial DNA. AncestryDNA provides tools and resources to help you identify your mtDNA haplogroup based on your genetic data.

Japanese people now claim that on the genetic level, the majority (40%-50%) of them belong to Haplogroup D2 (Y-DNA), and so they are a "rather homogenous group of people". Because Haplogroup D2 (Y-DNA) is also the marker of the indigenous Ainu people, they are "directly descended from the very first peoples who inhabited the land" and so they have "a legitimate claim to the land".

Haplogroup D2 (Y-DNA) is a child of Haplogroup DE (Y-DNA), which in turn is also the parent of Haplogroup E (Y-DNA). Haplogroup E (Y-DNA) occurs in very high frequencies in sub-Saharan Africa. In other words, it can be said that the Japanese people are more related to Tibetans, Andanamese, sub-Saharan Africans (in that order), rather than to the Chinese people, who are majority Haplogroup O (Y-DNA). Southern Chinese have the highest incidences of Haplogroup O (Y-DNA). The Chinese people are thus more related to the Caucasians of Haplogroup R1 (Y-DNA), via their common ancestor Haplogroup MNOPS (Y-DNA).

The perception that Chinese and Japanese people look similar may be due to the similar latitude and/or environments in which they evolve in the more recent past.

The Japanese further claim that they are majority Haplogroup D4 (mtDNA) via the maternal line.

Haplogroup D4 (mtDNA) is most frequently found among Koreans, and it is claimed that Haplogroup D4 (mtDNA) is a major contributor to Japanese longevity. That said, the parent Haplogroup D (mtDNA) can be found in high frequencies in the peoples of Central Asia.

The Japanese also claim Haplogroups (mtDNA) B and F to be present in lower frequencies in their maternal lines, but these do not contribute to Japanese longevity.

Haplogroups (mtDNA) B and F are more frequently found in Southern Chinese and Southeast Asian populations. Compared to Haplogroup D (mtDNA), Haplogroups (mtDNA) B and F are much more closely related to Haplogroup H (mtDNA), which is frequently found among Caucasians, via their common ancestor Haplogroup R (mtDNA).

You can determine if you have haplogroup H-M82 by taking a DNA test through a genetic genealogy company. The test results will provide your haplogroup information, including whether you belong to haplogroup H-M82. This information can help you trace your maternal or paternal lineage to specific ancestral groups.

Same race.

[2011-01-16]

Japanese people now claim that on the genetic level, the majority (40%-50%) of them belong to Haplogroup D2 (Y-DNA), and so they are a "rather homogenous group of people". Because Haplogroup D2 (Y-DNA) is also the marker of the indigenous Ainu people, they are "directly descended from the very first peoples who inhabited the land" and so they have "a legitimate claim to the land".

Haplogroup D2 (Y-DNA) is a child of Haplogroup DE (Y-DNA), which in turn is also the parent of Haplogroup E (Y-DNA). Haplogroup E (Y-DNA) occurs in very high frequencies in sub-Saharan Africa. In other words, it can be said that the Japanese people are more related to Tibetans, Andanamese, sub-Saharan Africans (in that order), rather than to the Chinese people, who are majority Haplogroup O (Y-DNA). Southern Chinese have the highest incidences of Haplogroup O (Y-DNA). The Chinese people are thus more related to the Caucasians of Haplogroup R1 (Y-DNA), via their common ancestor Haplogroup MNOPS (Y-DNA).

The perception that Chinese and Japanese people look similar may be due to the similar latitude and/or environments in which they evolve in the more recent past.

[2011-02-13]

The Japanese further claim that they are majority Haplogroup D4 (mtDNA) via the maternal line.

Haplogroup D4 (mtDNA) is most frequently found among Koreans, and it is claimed that Haplogroup D4 (mtDNA) is a major contributor to Japanese longevity. That said, the parent Haplogroup D (mtDNA) can be found in high frequencies in the peoples of Central Asia.

The Japanese also claim Haplogroups (mtDNA) B and F to be present in lower frequencies in their maternal lines, but these do not contribute to Japanese longevity.

Haplogroups (mtDNA) B and F are more frequently found in Southern Chinese and Southeast Asian populations. Compared to Haplogroup D (mtDNA), Haplogroups (mtDNA) B and F are much more closely related to Haplogroup H (mtDNA), which is frequently found among Caucasians, via their common ancestor Haplogroup R (mtDNA).

Japanese people are actually Chinese people.

[2011-01-16]

Japanese people now claim that on the genetic level, the majority (40%-50%) of them belong to Haplogroup D2 (Y-DNA), and so they are a "rather homogenous group of people". Because Haplogroup D2 (Y-DNA) is also the marker of the indigenous Ainu people, they are "directly descended from the very first peoples who inhabited the land" and so they have "a legitimate claim to the land".

Haplogroup D2 (Y-DNA) is a child of Haplogroup DE (Y-DNA), which in turn is also the parent of Haplogroup E (Y-DNA). Haplogroup E (Y-DNA) occurs in very high frequencies in sub-Saharan Africa. In other words, it can be said that the Japanese people are more related to Tibetans, Andanamese, sub-Saharan Africans (in that order), rather than to the Chinese people, who are majority Haplogroup O (Y-DNA). Southern Chinese have the highest incidences of Haplogroup O (Y-DNA). The Chinese people are thus more related to the Caucasians of Haplogroup R1 (Y-DNA), via their common ancestor Haplogroup MNOPS (Y-DNA).

The perception that Chinese and Japanese people look similar may be due to the similar latitude and/or environments in which they evolve in the more recent past.

[2011-02-13]

The Japanese further claim that they are majority Haplogroup D4 (mtDNA) via the maternal line.

Haplogroup D4 (mtDNA) is most frequently found among Koreans, and it is claimed that Haplogroup D4 (mtDNA) is a major contributor to Japanese longevity. That said, the parent Haplogroup D (mtDNA) can be found in high frequencies in the peoples of Central Asia.

The Japanese also claim Haplogroups (mtDNA) B and F to be present in lower frequencies in their maternal lines, but these do not contribute to Japanese longevity.

Haplogroups (mtDNA) B and F are more frequently found in Southern Chinese and Southeast Asian populations. Compared to Haplogroup D (mtDNA), Haplogroups (mtDNA) B and F are much more closely related to Haplogroup H (mtDNA), which is frequently found among Caucasians, via their common ancestor Haplogroup R (mtDNA).

The language and the culture is different they make not look or sound different but they are.

[2011-01-16]

Japanese people now claim that on the genetic level, the majority (40%-50%) of them belong to Haplogroup D2 (Y-DNA), and so they are a "rather homogenous group of people". Because Haplogroup D2 (Y-DNA) is also the marker of the indigenous Ainu people, they are "directly descended from the very first peoples who inhabited the land" and so they have "a legitimate claim to the land".

Haplogroup D2 (Y-DNA) is a child of Haplogroup DE (Y-DNA), which in turn is also the parent of Haplogroup E (Y-DNA). Haplogroup E (Y-DNA) occurs in very high frequencies in sub-Saharan Africa. In other words, it can be said that the Japanese people are more related to Tibetans, Andanamese, sub-Saharan Africans (in that order), rather than to the Chinese people, who are majority Haplogroup O (Y-DNA). Southern Chinese have the highest incidences of Haplogroup O (Y-DNA). The Chinese people are thus more related to the Caucasians of Haplogroup R1 (Y-DNA), via their common ancestor Haplogroup MNOPS (Y-DNA).

The perception that Chinese and Japanese people look similar may be due to the similar latitude and/or environments in which they evolve in the more recent past.

[2011-02-13]

The Japanese further claim that they are majority Haplogroup D4 (mtDNA) via the maternal line.

Haplogroup D4 (mtDNA) is most frequently found among Koreans, and it is claimed that Haplogroup D4 (mtDNA) is a major contributor to Japanese longevity. That said, the parent Haplogroup D (mtDNA) can be found in high frequencies in the peoples of Central Asia.

The Japanese also claim Haplogroups (mtDNA) B and F to be present in lower frequencies in their maternal lines, but these do not contribute to Japanese longevity.

Haplogroups (mtDNA) B and F are more frequently found in Southern Chinese and Southeast Asian populations. Compared to Haplogroup D (mtDNA), Haplogroups (mtDNA) B and F are much more closely related to Haplogroup H (mtDNA), which is frequently found among Caucasians, via their common ancestor Haplogroup R (mtDNA).

obviously what else would they be?

[2011-01-16]

Japanese people now claim that on the genetic level, the majority (40%-50%) of them belong to Haplogroup D2 (Y-DNA), and so they are a "rather homogenous group of people". Because Haplogroup D2 (Y-DNA) is also the marker of the indigenous Ainu people, they are "directly descended from the very first peoples who inhabited the land" and so they have "a legitimate claim to the land".

Haplogroup D2 (Y-DNA) is a child of Haplogroup DE (Y-DNA), which in turn is also the parent of Haplogroup E (Y-DNA). Haplogroup E (Y-DNA) occurs in very high frequencies in sub-Saharan Africa. In other words, it can be said that the Japanese people are more related to Tibetans, Andanamese, sub-Saharan Africans (in that order), rather than to the Chinese people, who are majority Haplogroup O (Y-DNA). Southern Chinese have the highest incidences of Haplogroup O (Y-DNA). The Chinese people are thus more related to the Caucasians of Haplogroup R1 (Y-DNA), via their common ancestor Haplogroup MNOPS (Y-DNA).

The perception that Chinese and Japanese people look similar may be due to the similar latitude and/or environments in which they evolve in the more recent past.

[2011-02-13]

The Japanese further claim that they are majority Haplogroup D4 (mtDNA) via the maternal line.

Haplogroup D4 (mtDNA) is most frequently found among Koreans, and it is claimed that Haplogroup D4 (mtDNA) is a major contributor to Japanese longevity. That said, the parent Haplogroup D (mtDNA) can be found in high frequencies in the peoples of Central Asia.

The Japanese also claim Haplogroups (mtDNA) B and F to be present in lower frequencies in their maternal lines, but these do not contribute to Japanese longevity.

Haplogroups (mtDNA) B and F are more frequently found in Southern Chinese and Southeast Asian populations. Compared to Haplogroup D (mtDNA), Haplogroups (mtDNA) B and F are much more closely related to Haplogroup H (mtDNA), which is frequently found among Caucasians, via their common ancestor Haplogroup R (mtDNA).

Belonging to Haplogroup A means that you share a common genetic lineage with others who also have this specific set of DNA markers. Haplogroup A is one of the founding lineages of modern humans, originating in Africa. It is found at low frequencies in populations today, particularly in some indigenous groups in Africa and East Asia.

The j2a1b1 haplogroup is a genetic marker that can help trace the ancestry of certain populations. It is found in some Middle Eastern and Mediterranean populations, suggesting a shared genetic heritage among these groups. This haplogroup can provide insights into human migration patterns and the spread of populations throughout history.

Haplogroup R-M512 is a genetic marker that is associated with the migration of early humans out of Africa and into Europe. It is believed to have originated in the Middle East around 20,000 years ago and is found in a significant portion of European populations today. This haplogroup provides insights into the genetic ancestry and migration patterns of human populations.

There are so many differences I don't think I can possibly list it. It's disappointing that you would throw two distinct cultures in the same bunch.

The Japanese originated from people from the Asias, including the Chinese

The Chinese do not have other writing formats like hiragana or katakana.

The languages are completely different.

Japanese were a predominately sealed away from the rest of the world, China was in trades very early

Etc....much much much more

[2011-01-16]

Japanese people now claim that on the genetic level, the majority (40%-50%) of them belong to Haplogroup D2 (Y-DNA), and so they are a "rather homogenous group of people". Because Haplogroup D2 (Y-DNA) is also the marker of the indigenous Ainu people, they are "directly descended from the very first peoples who inhabited the land" and so they have "a legitimate claim to the land".

Haplogroup D2 (Y-DNA) is a child of Haplogroup DE (Y-DNA), which in turn is also the parent of Haplogroup E (Y-DNA). Haplogroup E (Y-DNA) occurs in very high frequencies in sub-Saharan Africa. In other words, it can be said that the Japanese people are more related to Tibetans, Andanamese, sub-Saharan Africans (in that order), rather than to the Chinese people, who are majority Haplogroup O (Y-DNA). Southern Chinese have the highest incidences of Haplogroup O (Y-DNA). The Chinese people are thus more related to the Caucasians of Haplogroup R1 (Y-DNA), via their common ancestor Haplogroup MNOPS (Y-DNA).

The perception that Chinese and Japanese people look similar may be due to the similar latitude and/or environments in which they evolve in the more recent past.

[2011-02-13]

The Japanese further claim that they are majority Haplogroup D4 (mtDNA) via the maternal line.

Haplogroup D4 (mtDNA) is most frequently found among Koreans, and it is claimed that Haplogroup D4 (mtDNA) is a major contributor to Japanese longevity. That said, the parent Haplogroup D (mtDNA) can be found in high frequencies in the peoples of Central Asia.

The Japanese also claim Haplogroups (mtDNA) B and F to be present in lower frequencies in their maternal lines, but these do not contribute to Japanese longevity.

Haplogroups (mtDNA) B and F are more frequently found in Southern Chinese and Southeast Asian populations. Compared to Haplogroup D (mtDNA), Haplogroups (mtDNA) B and F are much more closely related to Haplogroup H (mtDNA), which is frequently found among Caucasians, via their common ancestor Haplogroup R (mtDNA).

Historical conflicts and territorial disputes have contributed to tensions between Japan and China. Additionally, issues such as differing political ideologies and interpretations of history have also strained relations between the two countries. It is important to note that not all Japanese and Chinese people are enemies, and there are many individuals who work towards promoting understanding and cooperation between the two nations.

Japanese and Chinese have same skins and similar cultures.

Japanese culture came from China directly but changed some today, such as: 空手道 - karate (comes from China, it called 唐手"Tang Soo Do" in China.)

[2011-01-16]

Japanese people now claim that on the genetic level, the majority (40%-50%) of them belong to Haplogroup D2 (Y-DNA), and so they are a "rather homogenous group of people". Because Haplogroup D2 (Y-DNA) is also the marker of the indigenous Ainu people, they are "directly descended from the very first peoples who inhabited the land" and so they have "a legitimate claim to the land".

Haplogroup D2 (Y-DNA) is a child of Haplogroup DE (Y-DNA), which in turn is also the parent of Haplogroup E (Y-DNA). Haplogroup E (Y-DNA) occurs in very high frequencies in sub-Saharan Africa. In other words, it can be said that the Japanese people are more related to Tibetans, Andanamese, sub-Saharan Africans (in that order), rather than to the Chinese people, who are majority Haplogroup O (Y-DNA). Southern Chinese have the highest incidences of Haplogroup O (Y-DNA). The Chinese people are thus more related to the Caucasians of Haplogroup R1 (Y-DNA), via their common ancestor Haplogroup MNOPS (Y-DNA).

The perception that Chinese and Japanese people look similar may be due to the similar latitude and/or environments in which they evolve in the more recent past.

[2011-02-13]

The Japanese further claim that they are majority Haplogroup D4 (mtDNA) via the maternal line.

Haplogroup D4 (mtDNA) is most frequently found among Koreans, and it is claimed that Haplogroup D4 (mtDNA) is a major contributor to Japanese longevity. That said, the parent Haplogroup D (mtDNA) can be found in high frequencies in the peoples of Central Asia.

The Japanese also claim Haplogroups (mtDNA) B and F to be present in lower frequencies in their maternal lines, but these do not contribute to Japanese longevity.

Haplogroups (mtDNA) B and F are more frequently found in Southern Chinese and Southeast Asian populations. Compared to Haplogroup D (mtDNA), Haplogroups (mtDNA) B and F are much more closely related to Haplogroup H (mtDNA), which is frequently found among Caucasians, via their common ancestor Haplogroup R (mtDNA).

The genetic haplogroup X (specifically X2a), whose origins are in Jerusalem, has been found in over 100 Native American tribes, including the Delaware, the Sac and Fox, and others.

Recent advances in technology have allowed the extraction of mitochondrial DNA from prehistoric skeletal material. Haplogroup B4'5 is thought to have been common among the Anasazi of the ancient U.S. Southwest. Haplogroup B4'5 appears to have been a fixture in the Southwest at least since the introduction of agriculture to the region from Mesoamerica 2,500 to 3,500 years ago. In some areas the haplogroup is found in 100% of the Native American population and sometimes multiple populations share the identical forms of the haplogroup; for example, a single variant of haplogroup B4'5 is shared by the Navajo, Zuni, Jemez and Seri groups, as well as others.

Haplogroup B4'5 reaches levels of 75-90% among the Pueblo groups of New Mexico and Arizona, which are thought to descend from the cliff-dwelling Anasazi who occupied the Southwest from the 8th century AD until their sudden disappearance in the early 12th century.

The Anasazi didn't literally disappear; modern Pueblo people and most scholars believe warfare or environmental catastrophe forced them to abandon their elaborate cliff dwellings for settlements in the Rio Grande valley. Recent studies of DNA extracted from 2,000-year-old remains have supported that view by establishing the presence of haplogroup B4'5 among the Anasazi.

There may have also been some small amounts of the "X" haplogroup as well. Dr. Smith was able to examine the haplogroups of ancient Anasazi skeletons and to compare these to samples from current populations. The study showed a makeup that was consistent with previous studies showing the Anasazi to be part of the pueblo family that includes the Hopi and other tribes in the Southwest. But the study also revealed the presence of another haplogroup which appears similar to an "X" haplogroup found in the Navajo, but which has not been found in the Hopi.

Haplogroup X is an oddball among the branches of the human mitochondrial DNA tree. It is scattered around the globe in the Northern Hemisphere, but aside from concentrations in a few isolated groups it almost never rises above a small percentage of the population. The presence of haplogroup X2 among Native Americans was something of a mystery when originally discovered, and to some degree still is.

Because of the Asiatic that they share with Indians, Mayans and Alaskans as well as many others. Mexicans.

Asians can be distinguised by their eyes.

Chinese: Monolid, Epithelial fold, slightly slanted

Japanese: Monolid, sometimes epithelial fold, depending of where you are from

Korean: Monolid, Epithelial fold

Vietnamese: Epithelial fold

Middle Eastern: Almond shaped, long eyelashes (normally)

Others: Normally Monolid and/or Epithelial fold.

*In case you are unsure of what some terms mean, here are examples:

Monolid: The eyelid is thick and covers the whole eyelid down to the lash line

Epithelial Fold:When the inner corner of the eye looks folded inwards

Not necessarily. Haplogroup E is found in populations across Africa, Europe, and the Middle East, so having haplogroup E does not automatically imply Black ancestry. Haplogroups provide information about deep ancestral origins that can be shared across different populations.

Chinese people are form China, Japanese people are from Japan.

Chinese people don't have slanted or sharp eyes diagonal pointed. Japanese people do. Chinese people are a lot smarter in Math, Politics, Producing, Working, Caring.

Japanese people do better in Improving, Spending, Funtiming, Caring, Reading.

Infact Japs try to act smart but Chinese are smarter. Either way they both are Asians. Asians are smart see. Japs and Chines are equaled which both are Asians. Asians conquer in being smarter than north Americans and outsiders. Intelligence and smartness doesn't come from just by making it or studying your confidence needs to feel like you already have been smart and intelligent. Your mind doesn't controll you studying your heart controlls you.

I say Japanese are smarter because my favorite anime show comes from Japan {Naruto/Naruto shippuden} and Japanese people invented Sony PS1,2,3,and 4 and Lcd TVs

[2011-01-16]

Japanese people now claim that on the genetic level, the majority (40%-50%) of them belong to Haplogroup D2 (Y-DNA), and so they are a "rather homogenous group of people". Because Haplogroup D2 (Y-DNA) is also the marker of the indigenous Ainu people, they are "directly descended from the very first peoples who inhabited the land" and so they have "a legitimate claim to the land".

Haplogroup D2 (Y-DNA) is a child of Haplogroup DE (Y-DNA), which in turn is also the parent of Haplogroup E (Y-DNA). Haplogroup E (Y-DNA) occurs in very high frequencies in sub-Saharan Africa. In other words, it can be said that the Japanese people are more related to Tibetans, Andanamese, sub-Saharan Africans (in that order), rather than to the Chinese people, who are majority Haplogroup O (Y-DNA). Southern Chinese have the highest incidences of Haplogroup O (Y-DNA). The Chinese people are thus more related to the Caucasians of Haplogroup R1 (Y-DNA), via their common ancestor Haplogroup MNOPS (Y-DNA).

The perception that Chinese and Japanese people look similar may be due to the similar latitude and/or environments in which they evolve in the more recent past.

[2011-02-13]

The Japanese further claim that they are majority Haplogroup D4 (mtDNA) via the maternal line.

Haplogroup D4 (mtDNA) is most frequently found among Koreans, and it is claimed that Haplogroup D4 (mtDNA) is a major contributor to Japanese longevity. That said, the parent Haplogroup D (mtDNA) can be found in high frequencies in the peoples of Central Asia.

The Japanese also claim Haplogroups (mtDNA) B and F to be present in lower frequencies in their maternal lines, but these do not contribute to Japanese longevity.

Haplogroups (mtDNA) B and F are more frequently found in Southern Chinese and Southeast Asian populations. Compared to Haplogroup D (mtDNA), Haplogroups (mtDNA) B and F are much more closely related to Haplogroup H (mtDNA), which is frequently found among Caucasians, via their common ancestor Haplogroup R (mtDNA).

Well, the original findings had four main genetic groups. There were designated haplogroups A, B, C, and D; testing of these haplogroups showed them to be from Asian based groups. However, further DNA evidence shows that there was a fifth founding genetic haplogroup found among Native Americans, and it shows that they have ties to Europe, rather than Asia.

This group has been found throughout Europe and is known to be one of the 12 primary haplogroup lineages. This lineage is haplogroup X, and, according to geneticists, its origins are the "hills of Galilee" in the Holy Land of Israel (Jerusalem). Haplogroup X has been found in over a hundred Native American tribes. The DNA was sequenced by an Antrhopology professor, professor Deborah Bolnick, from the bones of the ancient Hopewell Mound Builders in Ohio and Illinois. The specific variation of haplogroup X found in both North America and Jerusalem is X2A. For more information on this Pre-Columbian advanced civilization, see the Related Links below.

Six charges q ,q q, -q , -q ,q are to be arranged on the vertices of a regular hexagon PQRSTU such that the electric field at centre is double the field produced when only charge 'q' is placed at vertex R. The sequence of charges from P to Q is

A) q . -q , q ,q -q , -q B)q ,q q,-q,-q ,-q

C)-q, q , q , -q , -q , q C)-q , q , q , q , -q , -q

Yes, Paraiyars are called as "Paradas" in ancient india. Paraiyars came from North India. They were Buddhists lived under Mauryan Dynasty, it collapsed, they came down to Deccan Plateau and lived as one among the "Satavahana Dynasty",Then it also was ruined as they were Staunch buddhists, they moved down to Tamilnadu and lived under Kalabhara rule. Paraiyars entered Tamilnadu during 3rd cenutry A.D.

Paraiyars have (DNA) Y chromosome haplogroup " G2a", This haplogroup is found Central Asia. In India 90% of "Jats", 30% of "Iyers" and 30% of "Iyengars" have this Y chromosome haplogroup.

The Aboriginal people of Australia belong to the subgroup that is referred to as Haplogroup R. This group is also found in Southeast Asia.

It is Q*Q*Q*Q or Q^4 - whatever Q is.

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q

p-q

37 q in the d q

It is +q, since -q +(+q) = 0.

is 2 * abs(q -19). where abs(q-19) = q - 19 if q >= 19 and 19 - q if q <= 19

cosec(q)*cot(q)*cos(q) = 1/sin(q)*cot(q)*cos(q) = cot2(q)

Q Hasan goes by Q, and Q. Fancy.

Yes, it is true that either q is true or q is not true.

It would be $Q$57

It would be $Q$57

It would be $Q$57

It would be $Q$57

It would be $Q$57

It would be $Q$57

It would be $Q$57

It would be $Q$57

It would be $Q$57

It would be $Q$57

It would be $Q$57

Q is Q in Spanish.

1.8q = q - 2.4

1.8q - q = -2.4

0.8q = -2.4

q = -2.4/0.8

q = -2.9999

q

q

q

q

q