For a solution at atmospheric pressure (water potential) \(\Psi_{\mathrm{w}}=\) (solute potential) \(\Psi_{\mathrm{s}}\).
BIOXI11: TRANSPORT IN PLANTS
336552
Addition of more solutes in a given solution will :
1 Lower its water potential
2 Make its water potential zero
3 Not affect the water potential at all
4 Raise its water potential
Explanation:
Addition of more solutes in a given solution will lower its water potential.
NEET - 2022
BIOXI11: TRANSPORT IN PLANTS
336522
Two main components that determine water potential are
1 Pressure gradient minus water potential
2 Solute potential and pressure potential
3 Solute potential multiplied by pressure potential
4 Diffusion and active transport
Explanation:
Water potential is the free energy of one mole of water at NTP. It is the fundamental concept to understand water movement. Solute potential and pressure potential are two main components which determine water potential.
BIOXI11: TRANSPORT IN PLANTS
336523
The water potential of pure water is
1 One
2 More than one
3 Zero
4 less than zero
Explanation:
The chemical potential of water is said to be water potential. Water molecules possess kinetic energy. The greater the concentration of water in a system, the greater is its Kinetic energy or 'water potential'. Hence, it is obvious that pure water will have the greatest water potential. By convention, the water potential of pure water at standard temperatures, which is not under any pressure is taken to be zero.
KCET - 2024
BIOXI11: TRANSPORT IN PLANTS
336524
Which of the following has the maximum water potential?
For a solution at atmospheric pressure (water potential) \(\Psi_{\mathrm{w}}=\) (solute potential) \(\Psi_{\mathrm{s}}\).
BIOXI11: TRANSPORT IN PLANTS
336552
Addition of more solutes in a given solution will :
1 Lower its water potential
2 Make its water potential zero
3 Not affect the water potential at all
4 Raise its water potential
Explanation:
Addition of more solutes in a given solution will lower its water potential.
NEET - 2022
BIOXI11: TRANSPORT IN PLANTS
336522
Two main components that determine water potential are
1 Pressure gradient minus water potential
2 Solute potential and pressure potential
3 Solute potential multiplied by pressure potential
4 Diffusion and active transport
Explanation:
Water potential is the free energy of one mole of water at NTP. It is the fundamental concept to understand water movement. Solute potential and pressure potential are two main components which determine water potential.
BIOXI11: TRANSPORT IN PLANTS
336523
The water potential of pure water is
1 One
2 More than one
3 Zero
4 less than zero
Explanation:
The chemical potential of water is said to be water potential. Water molecules possess kinetic energy. The greater the concentration of water in a system, the greater is its Kinetic energy or 'water potential'. Hence, it is obvious that pure water will have the greatest water potential. By convention, the water potential of pure water at standard temperatures, which is not under any pressure is taken to be zero.
KCET - 2024
BIOXI11: TRANSPORT IN PLANTS
336524
Which of the following has the maximum water potential?
For a solution at atmospheric pressure (water potential) \(\Psi_{\mathrm{w}}=\) (solute potential) \(\Psi_{\mathrm{s}}\).
BIOXI11: TRANSPORT IN PLANTS
336552
Addition of more solutes in a given solution will :
1 Lower its water potential
2 Make its water potential zero
3 Not affect the water potential at all
4 Raise its water potential
Explanation:
Addition of more solutes in a given solution will lower its water potential.
NEET - 2022
BIOXI11: TRANSPORT IN PLANTS
336522
Two main components that determine water potential are
1 Pressure gradient minus water potential
2 Solute potential and pressure potential
3 Solute potential multiplied by pressure potential
4 Diffusion and active transport
Explanation:
Water potential is the free energy of one mole of water at NTP. It is the fundamental concept to understand water movement. Solute potential and pressure potential are two main components which determine water potential.
BIOXI11: TRANSPORT IN PLANTS
336523
The water potential of pure water is
1 One
2 More than one
3 Zero
4 less than zero
Explanation:
The chemical potential of water is said to be water potential. Water molecules possess kinetic energy. The greater the concentration of water in a system, the greater is its Kinetic energy or 'water potential'. Hence, it is obvious that pure water will have the greatest water potential. By convention, the water potential of pure water at standard temperatures, which is not under any pressure is taken to be zero.
KCET - 2024
BIOXI11: TRANSPORT IN PLANTS
336524
Which of the following has the maximum water potential?
For a solution at atmospheric pressure (water potential) \(\Psi_{\mathrm{w}}=\) (solute potential) \(\Psi_{\mathrm{s}}\).
BIOXI11: TRANSPORT IN PLANTS
336552
Addition of more solutes in a given solution will :
1 Lower its water potential
2 Make its water potential zero
3 Not affect the water potential at all
4 Raise its water potential
Explanation:
Addition of more solutes in a given solution will lower its water potential.
NEET - 2022
BIOXI11: TRANSPORT IN PLANTS
336522
Two main components that determine water potential are
1 Pressure gradient minus water potential
2 Solute potential and pressure potential
3 Solute potential multiplied by pressure potential
4 Diffusion and active transport
Explanation:
Water potential is the free energy of one mole of water at NTP. It is the fundamental concept to understand water movement. Solute potential and pressure potential are two main components which determine water potential.
BIOXI11: TRANSPORT IN PLANTS
336523
The water potential of pure water is
1 One
2 More than one
3 Zero
4 less than zero
Explanation:
The chemical potential of water is said to be water potential. Water molecules possess kinetic energy. The greater the concentration of water in a system, the greater is its Kinetic energy or 'water potential'. Hence, it is obvious that pure water will have the greatest water potential. By convention, the water potential of pure water at standard temperatures, which is not under any pressure is taken to be zero.
KCET - 2024
BIOXI11: TRANSPORT IN PLANTS
336524
Which of the following has the maximum water potential?
For a solution at atmospheric pressure (water potential) \(\Psi_{\mathrm{w}}=\) (solute potential) \(\Psi_{\mathrm{s}}\).
BIOXI11: TRANSPORT IN PLANTS
336552
Addition of more solutes in a given solution will :
1 Lower its water potential
2 Make its water potential zero
3 Not affect the water potential at all
4 Raise its water potential
Explanation:
Addition of more solutes in a given solution will lower its water potential.
NEET - 2022
BIOXI11: TRANSPORT IN PLANTS
336522
Two main components that determine water potential are
1 Pressure gradient minus water potential
2 Solute potential and pressure potential
3 Solute potential multiplied by pressure potential
4 Diffusion and active transport
Explanation:
Water potential is the free energy of one mole of water at NTP. It is the fundamental concept to understand water movement. Solute potential and pressure potential are two main components which determine water potential.
BIOXI11: TRANSPORT IN PLANTS
336523
The water potential of pure water is
1 One
2 More than one
3 Zero
4 less than zero
Explanation:
The chemical potential of water is said to be water potential. Water molecules possess kinetic energy. The greater the concentration of water in a system, the greater is its Kinetic energy or 'water potential'. Hence, it is obvious that pure water will have the greatest water potential. By convention, the water potential of pure water at standard temperatures, which is not under any pressure is taken to be zero.
KCET - 2024
BIOXI11: TRANSPORT IN PLANTS
336524
Which of the following has the maximum water potential?
