1
The separation of chromosomes.
a. osmosis
b. binary fission
c. mitosis
mitosis
this is reached when the molecules are spread out evenly throughout a system.
a. equilibrium
b. chromosomes
c. diffusion
equilibrium
the cell cycle starts when a cell
a. grows
b. copies its DNA
c. divides to make new cells
grow
the method by which prokaryotes form new cells.
a. osmosis
b. binary fission
c. mitosis
binary fission
Molecules that are made out of sugar and that are used for energy and energy storage.
a. chromosomes
b. carbohydrates
c. diffusion
carbohydrates
this is found in a plant cell but not in an animal cell
a. nucleus
b. cell membrane
c. cell wall
cell wall
a chain of small molecules that make up protein in a cell.
a. amino acid
b. ATP
c. mitosis
amino acid
During this, molecules naturally move from crowded areas to less crowded areas.
a. cellular respiration
b. chromosomes
c. diffusion
diffusion
this is a cell that does not have a nucleus
a. chromosome
b. prokaryote
c. eukaryote
prokaryote
the diffusion of water molecules across a cell membrane.
a. osmosis
b. binary fission
c. amino acid
osmosis
Tiny packets of DNA inside a eukaryote's nucleus.
a. equilibrium
b. chromosomes
c. carbohydrates
a. endocytosis
b. equilibrium
c. exocytosis
endocytosis
the main fuel that is used for cell activities.
a. binary fission
b. amino acid
c. ATP
ATP
one way that cells can change sugar into ATP is through this process.
a. cellular respiration
b. equilibrium
c. diffusion
cellular respiration
the process a cell goes through when a large particle is removed from the cell
a. endocytosis
b. equilibrium
c. exocystosis
exocytosis