Answer:
Newton's First Law of Motion
Newton's First Law of Motion states that an object in motion tends to stay in motion unless an external force acts upon it. Similarly, if the object is at rest, it will remain at rest unless an unbalanced force acts upon it. Newton's First Law of Motion is also known as the Law of Inertia.
Basically, what Newton's First Law is saying is that objects behave predictably. If a ball is sitting on your table, it isn't going to start rolling or fall off the table unless a force acts upon it to cause it to do so. Moving objects don't change their direction unless a force causes them to move from their path.
As you know, if you slide a block across a table, it eventually stops rather than continuing on forever. This is because the frictional force opposes the continued movement. If you threw a ball out in space, there is much less resistance, so the ball would continue onward for a much greater distance.
Explanation:
theres something in there about newton's first law and theres more then 2 sentences
Aerobic respiration involves the breakdown of glucose, producing carbon dioxide, water, and ATP, which is energy. This process is followed by three steps: Glycolysis, the Krebs Cycle, and electron transport.
Glycolysis takes place in the cytoplasm of the cell. Glucose is broken down into two pyruvates, which are 3 carbon molecules. NADH, a large molecule is also produced because the pyruvate is oxidized or “groomed”. Pieces of the molecule is chopped off, releasing NADH, acetyl CoA, and C02, which diffuses out of the cell.
In the Kreb’s cycle, AcetylCoA is brought into the cycle, where a set of reactions occur to release 2 ATP, NADH, FADH2, and C02.
Oxidation phosphorylation is the third step, including the electron transport chain. Electrons are delivered by NADH and FADH2. Hydrogen atoms go through a redox reaction, meaning atoms either gain or lose electrons. Oxygen is highly electronegative, so it pulls electrons through the electron transport chain. Electrons provide the energy to pump hydrogens across the membrane. Eventually, protons will flow down the gradient through the ATP synthase, creating ATP.
Answer: They can be found in Fossil Fuels
Explanation:
When animals die, they release carbon which goes into the ground and when it's stored for so long it turns into fossil fuels :)
Answer:
The question lacks options, the options are:
A. commensalism
B. mycorrhiza
C. parasitism
D. symbiosis
The answer is D, symbiosis (mutualism)
Explanation:
Organisms of same or different species interact with one another in their natural environment. The relationship between two organisms interacting with one another is called SYMBIOSIS. Symbiosis can be of different types depending on the effect of the relationship on the involved organisms. Symbiosis can be mutualistic, commensalistic or parasitic.
Mutualism is a kind of symbiosis in which the involved organisms benefit from the actions of one another. This is a case of the association between the root nodules of leguminous plant and rhizobium species.
Rhizobium is a bacteria genus found in the soil. They form nodules by attaching to the root of leguminous plants, which helps the plants to fix atmospheric nitrogen i.e converting gaseous nitrogen to a usable form (ammonia). In return, the plants provide organic acids for the Rhizobia bacteria, which they use as carbon and energy source. Hence, the association is a symbiotic relationship and specifically a mutualistic one.
The answer is no mycorrhiza because it is an association between a FUNGUS and a plant.
The uptake of carbon dioxide and the release of oxygen is essential for a plant to survive. Where and how does this gas exchange generally occur?
A. in all plant organs, as a result of cellular respiration
B. in the stems, to provide energy for lifting water
C. in the roots, to allow mineral absorption
D. in the leaves, as a result of photosynthesis
Answer D