Question
Recall what you know about hypertonic, hypotonic, and isotonic solutions. When an environment is hypotonic, what happens to the cell?(1 point)
Responses
The environment has more solute, so solvent moves from outside the cell to inside, causing the cell to swell.
The environment has more solute, so solvent moves from outside the cell to inside, causing the cell to swell.
The environment has more solute, so solvent moves from inside the cell to outside, causing the cell to shrink.
The environment has more solute, so solvent moves from inside the cell to outside, causing the cell to shrink.
The cell has more solute, so solvent moves from inside the cell to outside, causing the cell to shrink.
The cell has more solute, so solvent moves from inside the cell to outside, causing the cell to shrink.
The cell has more solute, so solvent moves from outside the cell to inside, causing the cell to swell.
Responses
The environment has more solute, so solvent moves from outside the cell to inside, causing the cell to swell.
The environment has more solute, so solvent moves from outside the cell to inside, causing the cell to swell.
The environment has more solute, so solvent moves from inside the cell to outside, causing the cell to shrink.
The environment has more solute, so solvent moves from inside the cell to outside, causing the cell to shrink.
The cell has more solute, so solvent moves from inside the cell to outside, causing the cell to shrink.
The cell has more solute, so solvent moves from inside the cell to outside, causing the cell to shrink.
The cell has more solute, so solvent moves from outside the cell to inside, causing the cell to swell.
Answers
Answer
The genetic material of the eukaryotic cell is stored inside which organelle?(1 point)
Responses
nucleus
nucleus
endoplasmic reticulum
endoplasmic reticulum
Golgi apparatus
Golgi apparatus
ribosome
Responses
nucleus
nucleus
endoplasmic reticulum
endoplasmic reticulum
Golgi apparatus
Golgi apparatus
ribosome
Answer
If eukaryotes all came about due to endosymbiosis, what would result from that?(1 point)
Responses
preserved DNA from the original ancestor that remains unchanged
preserved DNA from the original ancestor that remains unchanged
every organism would have the same set of body systems and functions
every organism would have the same set of body systems and functions
ancient prokaryotes living inside of modern eukaryotes
ancient prokaryotes living inside of modern eukaryotes
similar structures in eukaryotes with slight variations depending on their use
Responses
preserved DNA from the original ancestor that remains unchanged
preserved DNA from the original ancestor that remains unchanged
every organism would have the same set of body systems and functions
every organism would have the same set of body systems and functions
ancient prokaryotes living inside of modern eukaryotes
ancient prokaryotes living inside of modern eukaryotes
similar structures in eukaryotes with slight variations depending on their use
Answer
Which type of microscopes was developed most recently?(1 point)
Responses
scanning tunneling microscope
scanning tunneling microscope
fluorescence microscope
fluorescence microscope
light-based microscope
light-based microscope
electron microscope
Responses
scanning tunneling microscope
scanning tunneling microscope
fluorescence microscope
fluorescence microscope
light-based microscope
light-based microscope
electron microscope
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