A.1.1 Molecules - WATER

Question 1

Why did the first cells origin in water? Why is water a substance on which life depends?

Answer 1

First cells originated in water because:
1. Water blocked harmful UV rays
2. Provided a stable medium for aquatic organisms due to high specific heat capacity -> requires large amount of energy to change temperatures
3. Enzymes have an optimal temperature, so the water buffers the temperature of the cell so metabolic reactions can occur and the enzyme doesn’t denature

All living organisms require water to survive because:
1. Water forms a large proportion of living organisms
2. Water in the cytoplasm is the medium in which most processes of life occur
3. Biological enzymes must be dissolved in water

Question 2

Outline the formation of hydrogen bonds between atoms

Answer 2

Hydrogen bonding is the electrostatic forces of attraction that form BETWEEN water molecules due to the polarity of water molecules.

It is weaker, and represented by a dotted line.

Question 3

Describe a water molecule – why is it polar covalent? Draw the water molecule, using the correct notation.

Answer 3

Water is a polar covalent molecule due to the UNEQUAL SHARING OF ELECTRONS, which results in a permanent dipole.

Oxygen is partially negative, and hydrogen is partially positive.

The maximum number of hydrogen bonds that can be formed by one molecule of water is FOUR.

Question 4

Outline the consequences of the collective strength of hydrogen bonds between water molecules

Answer 4

1. High Heat Capacity and Thermal Stability: Hydrogen bonds allow water to absorb and release large amounts of heat with minimal temperature change. This high heat capacity stabilizes temperatures in aquatic environments and helps regulate the Earth’s climate.
2. High Boiling and Melting Points: The strong hydrogen bonding in water requires a significant amount of energy to break these bonds, leading to high boiling and melting points compared to similar-sized molecules.

3.High Surface Tension: Hydrogen bonding at the surface of water molecules creates strong cohesive forces, resulting in high surface tension. This allows insects and small animals to walk on water surfaces and aids capillary action in plants.

4. Density Anomalies: Water’s density decreases upon freezing due to the formation of a crystalline lattice with open hexagonal structures. This unique behavior of water explains why ice floats on liquid water and helps insulate aquatic environments.
5. Solvent Properties: Water’s ability to form hydrogen bonds makes it an excellent solvent for polar and ionic compounds. It enables the dissolution of many essential biological molecules, facilitating chemical reactions and nutrient transport within living organisms.

Question 5

Define cohesion

Answer 5

Cohesion is the electrostatic attraction between water molecules, due to hydrogen bonding, which is due to the polarity of the water, becuase of the partial positive hydrogen and partial negative oxygen.

Question 6

Describe how water moves through the xylem of a vascular plant

Answer 6

Cohesion allows for the transport of water under tension in the xylem of plants.

1. Water is transported in the xylem
2. From roots to leaves
3. Evaporation of water from the leaves pulls up water under tension in a continuous column of water

Question 7

Outline the cause of surface tension

Answer 7

Surface tension is the result of cohesive forces between molecules at the surface of a liquid. It’s primarily caused by the imbalance of forces acting on molecules at the liquid-air interface compared to those within the bulk of the liquid

Cohesive forces are attractive interactions between molecules of the same substance. In a liquid, molecules are attracted to neighboring molecules by various intermolecular forces, such ashydrogen bonding (in the case of water).

Question 8

State a benefit to living things that results from surface tension

Answer 8

Surface tension can cause small objects, like water droplets or insects, to adopt certain shapes that minimize their surface area, such as spherical droplets or the way insects “float” on water surfaces.

Some insects can use water surfaces as a habitat

Question 9

Define adhesion

Answer 9

Adhesion is the attraction of water to polar or charged materials.

Question 10

Outline the cause of capillary action. Describe capillary action in plant tissue. Outline the cause and effect of capillary action in soil.

Answer 10

1. Water moves up to the roots in the soil by capillary action as its attracted to the charged soil particles
2. Water is attracted to the polar molecules of cellulose (glucose) of the cell walls
3. Water is drawn upwards in the xylem through capillary action

Question 11

Explain why water is able to dissolve charged and polar molecules.

Answer 11

Water is a universal solvent – it can dissolve both polar and ionic substances.

1. It forms hydrogen bonds with charged substances
2. It isolates and surrounds ionic substances to form hydration shells

Question 12

Outline the solvation of hydrophilic and hydrophobic substances

Answer 12

Solvation refers to the process of surrounding solute molecules with solvent molecules to form a homogeneous solution. The behavior of hydrophilic (water-attracting) and hydrophobic (water-repelling) substances in water is governed by the polarity of the molecules involved.

Question 13

State an example of the function of a molecule depending on it being hydrophobic and insoluble.

Answer 13

An example of a molecule whose function depends on its hydrophobic and insoluble nature is cholesterol. Cholesterol is a lipid molecule that plays a crucial role in maintaining the structure and fluidity of cell membranes and serves as a precursor for the synthesis of important molecules such as steroid hormones and bile acids.

Question 14

State an example of the function of a molecule depending on it being hydrophilic and soluble.

Answer 14

An example of a molecule whose function depends on its hydrophilic and soluble nature is glucose, a simple sugar that serves as a primary source of energy for many living organisms.

Question 15

Outline the role of water as a medium for metabolism.

Answer 15

1. Water contributes to the formation of cell membranes
   - The spontaneous formation of bilayers as phospholipid heads interact with water, and tails try to avoid water
2. Water impact the folding of proteins
   - Water drives the folding of amino acid chains ad different types of amino acids seek and avoid interacting with water
   - Hydrophobic side chains in the protein’s interior, and hydrophilic side changes exposed on the protein’s surface
   - Function-reliant shape
3. Water surrounds DNA to support the double helix
   - Cells must be able to follow the careful instructions encoded by DNA
   - Passes instructions onto further future cells

Question 16

Describe the role of water as a medium for transport in vascular plants.

Answer 16

Solvent properties of water allow it to transport polar/ionic substance via the xylem and the phloem

1. Sugars/sucrose produced from photosynthesis are transported in the phloem of plants from source to sink
2. Minerals are transported in the xylem of plants from roots to leaves

Question 17

Describe the role of water as a medium for transport in animal blood.

Answer 17

The solvent properties of water allow it to transport polar/ionic substances via the blood. Blood plasma consists primarily of water

Molecules include:
1. glucose
2. amino acids
3. salts (NaCl)
4. immunoglobulins/antibodies
5. waste products (urea & co2)

Non-polar or hydrophobic compounds are not attacted/not dissolved in water include:

1. Oxygen – transported by hemoglobin in red blood cells. There is low wolubility in water because it’s non polar. Warmer water lowers the solubility of gases
2. Fatty acids/cholesterol – transported in lipoprotein comoplexes
   LDL - low density lipoprotein
   HDL - high density lipoprotein

Question 18

List the physical properties of water that are consequential for animals in aquatic habitats

Answer 18

1. Specific heat capacity
2. Thermal conductivity
3. Density
4. Buoyancy
5. Viscocity

Question 19

Define thermal conductivity. Compare less conductive to more conductive materials. Outline a consequence to life of the thermal conductivity of air and water.

Answer 19

Thermal conductivity is the ability of a material to transfer heat

Question 20

Define specific heat capacity. Describe why water has a high specific heat capacity. State 2 benefits to life of the high specific heat capacity of water

Answer 20

Specific heat capacity is the energy required to raise the temperature of a substance

Question 21

Compare the physical properties of water to those of air

Answer 21

All of the physical properties are greater in water compared to air

Question 22

Describe how the black-throated loon and the ringed seal interact with the physical properties of water in their habitat

Answer 22

BLACK THROATED LOONS:
V: hydrophobic/preen oil coating & hydrodynamic shape which reduces lag
B: solid bones and compressed air for diving
TC: trap air between feathers to reduce heat loss/maintain body temperature

RINGED SEALS
V: hydrodynamic shape & fins to propel them through water
B: blubber/fat/adipose tissue to float
TC: blubber/fat/adipose tissue to insulate

When water freezes, ice is less dense than water and floats – allowing aquatic life to continue below the ice. Ice also has a low thermal conductivity and traps heat in the water.

Question 23

Explain the hypothesis that asteroids are responsible for the origin of water on Earth. State reasons for why it was retained on early Earth.

Answer 23

4.5 BYA: Earth formed at high temperatures, thus not allowing water to condense or form -> water must have an extraplanetary origin

Water condensed at further distances from the sun at lower tempsa nd was carried to earth by asteroids

Water was released as a gas upon the impact of the meteorite and trapped by gravitational forces on earth (temps were low enough to allow water to condense and form a liquid)

The abundance of water over billions of years has allowed life to evolve

Question 24

Explain why the presence of water is considered fundamental to the search for extraterrestrial life. Describe the scientific reasoning/evidence of this.

Answer 24

Composition of isotopes of hydrogen in water found on earth matches the composition of carbonaceous chondrites (some of the oldest meteorites)

Water is required for living organisms. In order for life to develop, water must exist.

Transit spectrophotometry can measure the presence of water: light from the planet’s atmosphere can be analysed to see if the wavelengths of light are absorbed/deflected – determining if water is in the atmosphere

Question 25

Define the goldilocks zone

Answer 25

The goldilocks zone is the habitable zone or the orbital distance away from the star in which proper temperatures allows for water to condense and liquidise (Kepler -186F)

Planets too close are too hot for liquid water (Venus)

Planets too far are too cold (Uranus, Neptune)