NEET Test Series from KOTA - 10 Papers In MS WORD
WhatsApp Here
BIOXI11: TRANSPORT IN PLANTS
336343
____ is the function of the solute concentration
1 Osmotic potential
2 Solute potential
3 Osmotic pressure
4 All are correct
Explanation:
This pressure required to prevent water from diffusing is in fact, the osmotic pressure and this is the function of the solute concentration.
BIOXI11: TRANSPORT IN PLANTS
336344
Water will move from
1 Higher pressure potential to lower
2 Higher water potential to lower
3 Higher solute potential to lower
4 Lower water potential to higher
Explanation:
Water will move from its region of higher chemical potential (or concentration) to its region of lower chemical potential until equilibrium is reached. At equilibrium the two chambers should have nearly the same water potential.
BIOXI11: TRANSPORT IN PLANTS
336345
What will be the value for \(\Psi_{\mathrm{w}}\) for a flaccid cell if it's osmotic pressure is 20 bars?
1 Zero
2 20 bars
3 30 bars
4 -20 bars
Explanation:
Pressure potential of flaccid cell is zero \(\mathrm{OP}=-\) solute potential therefore, \(\Psi_\mathrm{s}=-20\) bars Water potential \(=\) solute potential + pressure potential \(\Psi_{\mathrm{w}}=\Psi_{\mathrm{s}}\left(\Psi_{\mathrm{p}}=0\right)\) Hence, \(\Psi_{\mathrm{w}}=-20\) bars
BIOXI11: TRANSPORT IN PLANTS
336346
The following diagram indicates the demonstration of which transport process?
336343
____ is the function of the solute concentration
1 Osmotic potential
2 Solute potential
3 Osmotic pressure
4 All are correct
Explanation:
This pressure required to prevent water from diffusing is in fact, the osmotic pressure and this is the function of the solute concentration.
BIOXI11: TRANSPORT IN PLANTS
336344
Water will move from
1 Higher pressure potential to lower
2 Higher water potential to lower
3 Higher solute potential to lower
4 Lower water potential to higher
Explanation:
Water will move from its region of higher chemical potential (or concentration) to its region of lower chemical potential until equilibrium is reached. At equilibrium the two chambers should have nearly the same water potential.
BIOXI11: TRANSPORT IN PLANTS
336345
What will be the value for \(\Psi_{\mathrm{w}}\) for a flaccid cell if it's osmotic pressure is 20 bars?
1 Zero
2 20 bars
3 30 bars
4 -20 bars
Explanation:
Pressure potential of flaccid cell is zero \(\mathrm{OP}=-\) solute potential therefore, \(\Psi_\mathrm{s}=-20\) bars Water potential \(=\) solute potential + pressure potential \(\Psi_{\mathrm{w}}=\Psi_{\mathrm{s}}\left(\Psi_{\mathrm{p}}=0\right)\) Hence, \(\Psi_{\mathrm{w}}=-20\) bars
BIOXI11: TRANSPORT IN PLANTS
336346
The following diagram indicates the demonstration of which transport process?
336343
____ is the function of the solute concentration
1 Osmotic potential
2 Solute potential
3 Osmotic pressure
4 All are correct
Explanation:
This pressure required to prevent water from diffusing is in fact, the osmotic pressure and this is the function of the solute concentration.
BIOXI11: TRANSPORT IN PLANTS
336344
Water will move from
1 Higher pressure potential to lower
2 Higher water potential to lower
3 Higher solute potential to lower
4 Lower water potential to higher
Explanation:
Water will move from its region of higher chemical potential (or concentration) to its region of lower chemical potential until equilibrium is reached. At equilibrium the two chambers should have nearly the same water potential.
BIOXI11: TRANSPORT IN PLANTS
336345
What will be the value for \(\Psi_{\mathrm{w}}\) for a flaccid cell if it's osmotic pressure is 20 bars?
1 Zero
2 20 bars
3 30 bars
4 -20 bars
Explanation:
Pressure potential of flaccid cell is zero \(\mathrm{OP}=-\) solute potential therefore, \(\Psi_\mathrm{s}=-20\) bars Water potential \(=\) solute potential + pressure potential \(\Psi_{\mathrm{w}}=\Psi_{\mathrm{s}}\left(\Psi_{\mathrm{p}}=0\right)\) Hence, \(\Psi_{\mathrm{w}}=-20\) bars
BIOXI11: TRANSPORT IN PLANTS
336346
The following diagram indicates the demonstration of which transport process?
NEET Test Series from KOTA - 10 Papers In MS WORD
WhatsApp Here
BIOXI11: TRANSPORT IN PLANTS
336343
____ is the function of the solute concentration
1 Osmotic potential
2 Solute potential
3 Osmotic pressure
4 All are correct
Explanation:
This pressure required to prevent water from diffusing is in fact, the osmotic pressure and this is the function of the solute concentration.
BIOXI11: TRANSPORT IN PLANTS
336344
Water will move from
1 Higher pressure potential to lower
2 Higher water potential to lower
3 Higher solute potential to lower
4 Lower water potential to higher
Explanation:
Water will move from its region of higher chemical potential (or concentration) to its region of lower chemical potential until equilibrium is reached. At equilibrium the two chambers should have nearly the same water potential.
BIOXI11: TRANSPORT IN PLANTS
336345
What will be the value for \(\Psi_{\mathrm{w}}\) for a flaccid cell if it's osmotic pressure is 20 bars?
1 Zero
2 20 bars
3 30 bars
4 -20 bars
Explanation:
Pressure potential of flaccid cell is zero \(\mathrm{OP}=-\) solute potential therefore, \(\Psi_\mathrm{s}=-20\) bars Water potential \(=\) solute potential + pressure potential \(\Psi_{\mathrm{w}}=\Psi_{\mathrm{s}}\left(\Psi_{\mathrm{p}}=0\right)\) Hence, \(\Psi_{\mathrm{w}}=-20\) bars
BIOXI11: TRANSPORT IN PLANTS
336346
The following diagram indicates the demonstration of which transport process?
