The statement is true that recycling paper reduces water use.
Recycling paper can indeed reduce water use in several ways. Producing paper from recycled fibers typically requires less water. The recycling process involves breaking down the used paper into pulp and removing impurities, which requires less water-intensive steps than starting from scratch with raw materials. Thus, recycling paper reduces the overall water consumption during paper production.
By recycling paper instead of disposing of it in landfills, the amount of paper waste sent for landfilling is reduced. Consequently, the potential for leachate formation and its associated water pollution risks can be minimized.
Overall, recycling paper helps conserve water by reducing water consumption during paper production, minimizing the need for extensive bleaching, and mitigating water pollution associated with landfilling.
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Answer:
It's True
Explanation:
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Answer:
he belived that girls didnt have a real mothe
Explanation:
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B) to observe whether or not a recessive trait would reappear
C) to observe whether or not the dominant trait would reappear
D) to distinguish which alleles were segregating
E) to be able to describe the frequency of recombination
1. Catabolism of glucose in glycolysis and pyruvate oxidation.
2. Oxidation of intermediates in the Krebs cycle.
3. Formation of a proton gradient by the electron transport chain.
Cellular respiration include the metabolic pathways of glycolysis, the Krebs
cycle, and the electron transport chain which perform different roles in
ensuring ATP is produced by the cells.
1.Catabolism of glucose in glycolysis and pyruvate oxidation-This process
facilitates the production of NADH which is used in the electron transport
chain. It also produces acetyl-CoA which is the starting substrate which
enters into the Kreb's cycle and energy used for phosphorylation of ADP to
form ATP.
2. Oxidation of intermediates in the Krebs cycle- This results in NADH or
FADH₂ being produced and used in the electron transport chain. It also
produces GTP (guanosine triphosphate) used in the phosphorylation of ADP
to form ATP.
3.Formation of a protongradient by the electron transport chain-The flow of protons through membrane-bound ATP synthase provides energy used phosphorylation of ADP to form ATP.
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Cellular respiration included the metabolic pathways of glycolysis, the Krebs cycle, and the electron transport chain is described below.
Explanation:
1. Catabolism of glucose in glycolysis and pyruvate oxidation-Produces NADH for use in ETC.Produces acetyl-CoA for entry into kerbs cycle.Provides energy for phosphorylation of ADP.
2. Oxidation of intermediates in the Krebs cycle-Produces NADH or FADH2 for use in ETC.Releases high energy electrons for use in ETC.Provides energy to pump protons against their concentration gradient.Produces GTP for phosphorylation of ADP.
3. Formation of a proton gradient by the electron transport chain-The flow of protons through membrane-bound ATP synthase generates ATP.Provides energy for phosphorylation of ADP.
The amount of guanine in a organism always equals the amount of cytosine.
The Deoxyribonucleic acid (DNA) molecule is made up of four building blocks called nucleotides: adenine (A), thymine (T), guanine (G), and cytosine (C).
The guanine, also called guanosine, is defined as one of the nucleobases found in the nucleic acid of DNA and ribonucleic acids (RNA).
Cytosine plays an essential role in forming base pairs by bonding with guanine and forming the genetic code found in both DNA and RNA.
Therefore,the quantity ofguanine bases are the same with cytosine bases on the opposite strand.
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