Why does the ocean contain more heat energy than a pot of boiling water?A
because the ocean has many more molecules than a pot of water
B
because ocean water has a higher temperature than boiling water
C
because the salt in the ocean causes ocean water to hold on to more heat
D
because molecules of ocean water moves more slowly than those of boiling water
Answers
Answer:
A.bevause the ocean had more molecule than a pot of water.
Final answer:
The ocean contains more heat energy than a pot of boiling water because it has many more molecules.
Explanation:
The correct answer is A) because the ocean has many more molecules than a pot of water.
In terms of heat energy, the total amount of energy in a substance is directly proportional to the number of molecules it contains. Therefore, the ocean, which is much larger than a pot of boiling water, contains a significantly higher number of molecules, resulting in more heat energy.
For example, if we compare a small pot of boiling water to the vast ocean, the ocean contains a much larger volume of water, and therefore, a greater number of molecules that contribute to its heat energy.
Learn more about Heat Energy here:
#SPJ2
Related Questions
Name a metal metalloid
Which type of neuron is completely contained within the CNS?
How are a carrot, an amoeba, and a mandrill. alike
What makes carbon so versatile
Answers
Answer:
the answer is passive transport
Answers
Answer:
Explained
Explanation:
Type II response can be defined as an antibody-dependent process in which specific antibodies bind to antigens and results in tissue damage. Transfusion reaction is a type II response because here the mismatched RBC's are rapidly destroyed by specific preformed antibodies (anti-ABO or -Rh) and complement.
Transfusion reactions takes place when incompatible blood products are transfused into a patient's circulation. This triggers the patient's immune system and consequently donor RBC's are destroyed by antibodies in the recipient's circulation. This is usually seen when antigen-positive donor RBC's are transfused into a patient who has preformed antibodies to that antigen.
b. Sequences of hydrophobic amino acids are the segments of the protein that span the membrane.
c. Sequences of hydrophobic amino acids are the segments of the protein that dissolve in the membrane.
d. Sequences of hydrophilic amino acids are the segments of the protein that dissolve in the membrane.
Answers
Sequences of hydrophobic amino acids are the segments of the protein that span the membrane. Thus option B is correct.
What are the levels of protein structure?
The Primary structure of proteins is the linear structure of amino acids formed by Covalent, peptide bonds to form primary structure of protein.
Secondary structure protein defined as the folded structures formed by hydrogen bonding among the amine and carboxyl group of the peptide chain and it finally form polypeptide then into protein.
These secondary structure present in two structure such as α – helix which form a polypeptide chain by hydrogen bonding and twisting into a right-handed screw with the -NH group of each amino acid residue.
The β – pleated sheet form of protein are stretched out ,laid side by side together by intermolecular hydrogen bonds.
Learn more about protein, here:
#SPJ2
Have a nice day
Answers
Answers
Answer:
This question is asking to identify the independent variable in the scientific question.
The independent variable is TEMPERATURE
Explanation:
Independent variable in an experiment refers to the variable that is subject to change or manipulation by the experimenter in order to bring about an effect or response in the dependent variable.
In this scientific question that states: What effect does high temperature have on radish germination?, the independent variable is the TEMPERATURE because it is what is being changed in the experiment in order to effect a response in the germination of radish (dependent variable).
Answers
Answer:
It allows rapid conduction of water from one vessel element to the next.
Explanation:
Vessels are one of the two types of conducting cells of xylem. Vessels are made of vessel elements. Vessel elements are the individual cells with perforation plates. The perforation plates have large holes (perforations). Perforation plates of adjacent vessel elements allow easier conduction of water from one vessel element to the next.
The perforated end walls of vessel elements allow these conducting cells to conduct water more readily than tracheids. Stacking of vessel elements with perforated end walls make the vessel like a water pipe through which water is being readily conducted.