It's been almost 3days reading book but couldn't figure it out. Came here and learned it within 7mins. I was confused about the genotypic calculation assuming it and comparing it with phenotypic calculation which gives 1/2(50% hybrid and 50% recessive). Thanks alot, sir.
Answer this 2. A group of stone age farmers settles on a remote island. The allele frequency of this first generation is P= 0.8 and Q= 0.2, with P being the dominant allele frequency and Q being the recessive allele frequency. One thousand years later, no member of this population has the recessive allele. This is an example of: A) Natural Selection B) Genetic Drift C) Mutation D) Gene Flow 3. Which of the following introduced the concept of deep time that everyday processes such as wind and water erosion can account for geological features on Earth today on a long enough time scale? A) Alfred Russel Wallace B) John Ray C) Charles Lyell D) Thomas Hunter Morgan 4. When a new species forms from an isolated population, this is known as _______. A) Sympatric speciation B) Allopatric speciation C) Polymorphism D) Punctuated equilibrium
In a biology class, 65% of the students had the ability to roll tongue. This is conferred by the dominant allele of a gene while its recessive allele, 'n' leads to non-rolling of the tongue. Compute both the genetic and allelic frequencies of the trait in the population.
2. A group of stone age farmers settles on a remote island. The allele frequency of this first generation is P= 0.8 and Q= 0.2, with P being the dominant allele frequency and Q being the recessive allele frequency. One thousand years later, no member of this population has the recessive allele. This is an example of: A) Natural Selection B) Genetic Drift C) Mutation D) Gene Flow 3. Which of the following introduced the concept of deep time that everyday processes such as wind and water erosion can account for geological features on Earth today on a long enough time scale? A) Alfred Russel Wallace B) John Ray C) Charles Lyell D) Thomas Hunter Morgan 4. When a new species forms from an isolated population, this is known as _______. A) Sympatric speciation B) Allopatric speciation C) Polymorphism D) Punctuated equilibrium Answer this
Not that this would help you much now but the allele frequency is how many Capital B's there are in a population divided by the total number of alleles (or capital and lowercase b's). So, if you have 5 BB, 3Bb, and 2bb, the allele frequency for B is 13/20 (10 because of the 5 BB plus the 3 more B's from the Bb's). This might be hard to read but I hope it helps!
@@lanahooper477 So are you adding up how many Capital Bs there are compared to lowercase bs? Please explain a little more in depth. I know you explained already and I’m sorry. But I’m trying to pass my GED science test. I got a 144. I just need a 145. Please elaborate in more depth. Just need to understand how to calculate the percentage and whatnot. Thank you.
@@Kal-El207 yes, sorry this took so long! So think of each b as 1 allele so BB has 2 Bb has 2 and bb has 2. Now if I have 5 BB, 3 bB and 2 bb then in total I have 20 alleles. Then, in the BB I have 5 of the first B and 5 of the second B so there are 10/20 from that first BB. Then there are 3 B from the Bb. So you have 13/20 allele frequency for B when you add those two together. Then for little b you have 3 from Bb and 4 from bb so you have 7/20 allele frequency for b. BB BB BB BB BB Bb Bb Bb bb bb Basically add up all of the B and b’s and divide by how many there are in total so if you have 10 pairs you have 20 alleles. hope this helps :)
So my question to answer is, I have 22 out of 100 people with blue recessive genotypes , and I'm supposed to determine the frequency of blue recessive, and brown homozygous and heterozygous. How do i do this?
+Prashant Hariharan each chromosome in a homologs pair will carry the same gene however there may or may not be a different allele present for that gene on the loci on of the chromosome, he's showing 4 chromosomes which have the same gene for eye colour but 1 different allele
Let me simplify this video for everyone: Bb and bb are the only available genotypes. the B allele has a frequency of 25%, b has a frequency of 75%. That's it. I don't understand why all these videos are so unnecessarily long.
He repeats in order to let the keywords reach well our memory. The more you repeat the word (more precisely throughout time), the better it is to memorize.
Thank you very much for explaining the notion of allele frequency . Teachers often overlook this part and skip it real quick.
ikr
It's been almost 3days reading book but couldn't figure it out.
Came here and learned it within 7mins. I was confused about the genotypic calculation assuming it and comparing it with phenotypic calculation which gives 1/2(50% hybrid and 50% recessive).
Thanks alot, sir.
Hey everyone who is here from 2020 it means after 6 years
2021
2923
2023
2024
Answer this
2. A group of stone age farmers settles on a remote island. The allele frequency of this first
generation is P= 0.8 and Q= 0.2, with P being the dominant allele frequency and Q being the recessive
allele frequency. One thousand years later, no member of this population has the recessive allele. This is
an example of:
A) Natural Selection
B) Genetic Drift
C) Mutation
D) Gene Flow
3. Which of the following introduced the concept of deep time that everyday processes such as
wind and water erosion can account for geological features on Earth today on a long enough
time scale?
A) Alfred Russel Wallace
B) John Ray
C) Charles Lyell
D) Thomas Hunter Morgan
4. When a new species forms from an isolated population, this is known as _______.
A) Sympatric speciation
B) Allopatric speciation
C) Polymorphism
D) Punctuated equilibrium
please make it complicated. please do for homozygous dominant BB. make it three alleles please !!!!!
In a biology class, 65% of the students had the ability to roll tongue. This is conferred by
the dominant allele of a gene while its recessive allele, 'n' leads to non-rolling of the tongue.
Compute both the genetic and allelic frequencies of the trait in the population.
2. A group of stone age farmers settles on a remote island. The allele frequency of this first
generation is P= 0.8 and Q= 0.2, with P being the dominant allele frequency and Q being the recessive
allele frequency. One thousand years later, no member of this population has the recessive allele. This is
an example of:
A) Natural Selection
B) Genetic Drift
C) Mutation
D) Gene Flow
3. Which of the following introduced the concept of deep time that everyday processes such as
wind and water erosion can account for geological features on Earth today on a long enough
time scale?
A) Alfred Russel Wallace
B) John Ray
C) Charles Lyell
D) Thomas Hunter Morgan
4. When a new species forms from an isolated population, this is known as _______.
A) Sympatric speciation
B) Allopatric speciation
C) Polymorphism
D) Punctuated equilibrium
Answer this
The easiest explanation ever! ❤
i swear to god you guys follow my schedule of studying, i just learned these today :)
Haha well I just had a mock exam on them too xD
@Mark Steven probably don't even remember bio classes
@@justkamola you probably don't remember that they don't remember bio classes
@@sneeker7722 you probably don’t remember that they don’t remember that they don’t remember bio class
@@mikuculus3720 you probably don't remember that they probably don’t remember that they don’t remember that they don’t remember bio class
i dont understand how you calculate the allele frequency of a population
Not that this would help you much now but the allele frequency is how many Capital B's there are in a population divided by the total number of alleles (or capital and lowercase b's). So, if you have 5 BB, 3Bb, and 2bb, the allele frequency for B is 13/20 (10 because of the 5 BB plus the 3 more B's from the Bb's). This might be hard to read but I hope it helps!
@@lanahooper477 So are you adding up how many Capital Bs there are compared to lowercase bs? Please explain a little more in depth. I know you explained already and I’m sorry. But I’m trying to pass my GED science test. I got a 144. I just need a 145. Please elaborate in more depth. Just need to understand how to calculate the percentage and whatnot. Thank you.
@@Kal-El207 yes, sorry this took so long! So think of each b as 1 allele so BB has 2 Bb has 2 and bb has 2. Now if I have 5 BB, 3 bB and 2 bb then in total I have 20 alleles. Then, in the BB I have 5 of the first B and 5 of the second B so there are 10/20 from that first BB. Then there are 3 B from the Bb. So you have 13/20 allele frequency for B when you add those two together. Then for little b you have 3 from Bb and 4 from bb so you have 7/20 allele frequency for b.
BB
BB
BB
BB
BB
Bb
Bb
Bb
bb
bb
Basically add up all of the B and b’s and divide by how many there are in total so if you have 10 pairs you have 20 alleles.
hope this helps :)
@@lanahooper477 Thank you!
So my question to answer is, I have 22 out of 100 people with blue recessive genotypes , and I'm supposed to determine the frequency of blue recessive, and brown homozygous and heterozygous. How do i do this?
Nice explanation
at 3:10 you say "there are 4 chromosomes that are carrying this gene in this population"....could you explain this to me again please?
+Prashant Hariharan each chromosome in a homologs pair will carry the same gene however there may or may not be a different allele present for that gene on the loci on of the chromosome, he's showing 4 chromosomes which have the same gene for eye colour but 1 different allele
Thank you so much
you are brilliant.
Let me simplify this video for everyone: Bb and bb are the only available genotypes. the B allele has a frequency of 25%, b has a frequency of 75%.
That's it. I don't understand why all these videos are so unnecessarily long.
There is no need, there is no need to repeat every other word, word. We heard, we heard you the first, first time.
I feel like he does this for himself to keep him on point...plus it does help reinforce his ideas to the audience.
stfu dont disrespect a legend
He repeats in order to let the keywords reach well our memory. The more you repeat the word (more precisely throughout time), the better it is to memorize.
obviously this is a joke so can people stop being so defensive.
Find out the allele frequency of A, B and O blood types in a population with the following number of phenotypes.
A=84, B= 109,AB=47 and O=71
For what reasons is the typical allele not embedded into each cell of the patient?
Please add a topic of mutation pressure
thanks
I squeal so hard at the things that pop up when I type in bean frequency
Nice
Much appreciated... This still works even in 2019, lol.
ikr
Interesting but verrrrry laboured!
this is similar to sickle cell traits.
Who's here in 2021???
anyone from 2023?
2024 xD
lol blib, anyways, this vid really helped me out
So... did i get this right:
Alleles are genes and Alleles frequency is the chromosome of that allele out of the whole allele...
harambe Rest in pastalol such good vid lol idk
You shouldn't be a science teacher, Go to Sociology