One example of a stored-value card is a(n) *A. Credit Card
B. Debit Card
C. Gift Card
D. Identification Card

Answer:

Citric acid, also known as citrate or citronensaeure, belongs to the class of organic compounds known as tricarboxylic acids and derivatives.

Explanation:

Hope this helps!

Answer:

Explanation:

On someone with a normal genetic variation, the environment helps them adapt and pushes for the evolution of the traits that will help that species increase their chances of survival in future generations. This includes traits such as height, thus increasing this trait so that the species is able to reach food in higher places or reach higher places in order to find shelter. This does not have the same effect when dealing with a certain genetic mutation such as dwarfism since the mutation targets a specific value for these traits and is not affected by its environment.

Final answer:

The environment can influence height in individuals with normal genetic variation through factors such as nutrition and exercise. However, the impact of the environment on someone with a mutation leading to dwarfism is less significant.

Explanation:

The environment can impact a multifactorial trait like height in someone with normal genetic variation through factors such as nutrition, exercise, and overall health. For example, a well-nourished individual who engages in regular physical activity may reach their full potential height. On the other hand, an environment with inadequate nutrition or limited access to healthcare could lead to stunted growth and shorter height.

In the case of someone with a mutation resulting in dwarfism, the impact of the environment may be less significant. Dwarfism is primarily caused by genetic mutations that affect the production of growth hormone. While environmental factors can still influence overall health and well-being, they are unlikely to significantly alter the person's height.

Therefore, the environment plays a more prominent role in affecting height in individuals with normal genetic variation compared to those with a specific genetic mutation causing dwarfism.

Learn more about environment here:

brainly.com/question/32421881

#SPJ3

Answer:

1802

Explanation:

(8)(45)(5)+10−8

(360)(5)+10−8

1800+10−8

1810−8

1802

anything else!!!!

The correct answer is option B. Devonian.

The amphibians are the tetrapods (having four limbs), which can live in both water and land, but for reproduction purpose, they need water and early life is exclusively aquatic. The amphibians are known to be evolved from lobbed finned fishes around 370 million years ago in the Devonian period of the Paleozoic Era.  

Answer:

the upper layer of earth in which plants grow, a black or dark brown material typically consisting of a mixture of organic remains, clay, and rock particles.

Explanation:

Example-"blueberries need very acid soil"

Answer:

the upper layer of earth in which plants grow,

Answer:

The number of hydrogen bonds involved will be 39

Explanation:

There are 4 types of bases that exist in a DNA, which are adenine, thymine, guanine and cytosine. Double stranded DNA molecules have these bases attaching specifically to one another; adenine only binds to thymine and vice versa while guanine only binds to cytosine and vice versa. These two bases bonding together are referred to as base pairs and the type of bond here is the hydrogen bond. There are double bonds between the adenine and thymine base pair while there are triple bonds between the guanine and cytosine base pairs.

Thus, when there are 13 cytosine bases in a DNA molecule, the number of hydrogen bonds present in the resulting base pairs will be 13 × 3 (because cytosine binds with a triple bond to guanine).

13 × 3 = 39

The number of hydrogen bonds involved will be 39

Final answer:

So, in a DNA molecule of 50 base pairs that contains 15 cytosine (C) bases, there would be a total of 115 hydrogen bonds involved in base pairing.

Explanation:

In DNA, base pairing occurs between complementary nitrogenous bases. Adenine (A) pairs with thymine (T), and cytosine (C) pairs with guanine (G). Each base pair is connected by hydrogen bonds.

In a DNA molecule of 50 base pairs with 15 cytosine (C) bases, you can determine the number of hydrogen bonds involved in base pairing as follows:

1. Each adenine (A) pairs with thymine (T) and forms two hydrogen bonds.

2. Each cytosine (C) pairs with guanine (G) and forms three hydrogen bonds.

So, for the 15 cytosine (C) bases, you would have 15 pairs of C-G base pairs, and for the remaining 35 bases, you would have 35 pairs of A-T base pairs.

Total hydrogen bonds involved in base pairing:

(15 pairs of C-G base pairs * 3 hydrogen bonds per pair) + (35 pairs of A-T base pairs * 2 hydrogen bonds per pair)

= (15 * 3) + (35 * 2)

= 45 + 70

= 115 hydrogen bonds.

So, in a DNA molecule of 50 base pairs that contains 15 cytosine (C) bases, there would be a total of 115 hydrogen bonds involved in base pairing.

Learn more about Hydrogen bonds in DNA base pairing here:

brainly.com/question/32296419

#SPJ3