All categories

3 years ago

Match each image to the correct step of meiosis..

Biology

2 answers:

Brilliant_brown [7]3 years ago

6 0

Answer:

Hope this helps

Explanation:

The other person said the answer I don't want to type anymore

swat323 years ago

3 0

Answer:

Ok I am pretty sure

Top left is Prophase 1

Bottom left is Anaphase 1

Top right is Metaphase 2

Middle right is Telophase 2

Bottom right is Prophase 2

Explanation:

I hope this helped

You might be interested in

Considering the same population of cats as in Part A, what is the expected frequency of each genotype (TLTL, TLTS, TSTS ) based

zaharov [31]

Answer:

P = f(TLTL) = 0,16

H = f(TLTS) = 0,48

Q = f(TSTS) = 0,36

Explanation:

Hello!

The allele proportion of any locus defines the genetic constitution of a population. Its sum is 1 and its values can vary between 0 (absent allele) and 1 (fixed allele).

The calculation of allelic frequencies of a population is made taking into account that homozygotes have two identical alleles and heterozygotes have two different alleles.

In this case, let's say:

f(TL) = p

f(TS) = q

p + q = 1

Considering the genotypes TLTL, TLTS, TSTS, and the allele frequencies:

TL= 0,4

TS= 0,6

Genotypic frequency is the relative proportion of genotypes in a population for the locus in question, that is, the number of times the genotype appears in a population.

P = f(TLTL)

H = f(TLTS)

Q = f(TSTS)

Also P + H + Q = 1

And using the equation for Hardy-Weinberg equilibrium, the genotypic frequencies of equilibrium are given by the development of the binomial:

$p^{2} = f(TLTL)$

$2pq = f(TSTL)$

$q^{2} = f(TSTS)$

So, if the population is in balance:

$P = p^{2}$

$H = 2pq$

$Q = q^{2}$

Replacing the given values of allele frecuencies in each equiation you can calculate the expected frequency of each genotype for the next generation as:

$f(TLTL) = P = p^{2} = 0,4^{2} = 0,16$

$f(TLTS) = H = 2pq = 2*0,4*0,6 = 0,48$

$f(TSTS) = Q = q^{2} = 0,6^{2} = 0,36$

I hope you have a SUPER day!

6 0

3 years ago

What stores the code for the order of amino acid for each protein?

saveliy_v [14]

The DNA Codons is the answer to your question

6 0

3 years ago

What does a scientist observe in a chemical's reaction rate? the speed at which the reactants change to products over a given ti

kvasek [131]

Answer:

The speed at which the reactants change to products over a given time.

Explanation:

A chemical's reaction rate is the change in the concentration of a reactant or a product with time (in moles per second).

Remember that during a chemical reaction, reactants are converted to products. Or what is the same, products are formed at the expense of reactants. This can be represented:

reactants → products

Therefore, the progress of a reaction can be followed measuring the decrease in concentration of the reactants or the increase in concentration of the products.

According to the temperature and other parameters, the reaction rate can increase or decrease.

8 0

3 years ago

A student is studying the amino acid sequence of a protein shared by four organisms. The student wants to know which organism is

den301095 [7]

Answer:

Its organism B

Explanation:

because its closer to organism A

7 0

3 years ago

Read 2 more answers

The speed of light in a vacuum is approximately 299,500,000 meters per second. In scientific notation, we can write this number

Nonamiya [84]

In scientific notation, the value of the speed of light in a vacuum
will be written as 2.995 * 10^8. When this value is represented in the form of
a * 10^b, then, a = 2.995 and b = 8.
The value of the speed of light in a vacuum given above can also be rounded up to approximately 300000000. In this case, the scientific notation will be written as 3 *10^8.

6 0

3 years ago

Read 2 more answers