Biology Paper 1

Created by

Shuua

Cards (164)

Light microscope
Uses light to form an image
Can be used to view live specimens
Relatively cheap and easy to use
Can magnify up to 2,000 times
Resolution 
The ability to see two things as separate objects
Electron microscope
Uses electrons to form an image
Specimens must be dead
Very expensive and has many conditions
Can magnify up to 2 million times
Has a resolution of 0.2 nanometers
The electron microscope is much better than the light microscope in terms of magnification and resolution
The high magnification and resolution of the electron microscope allows scientists to see and understand more about the subcellular structures of cells
Animal cell 
Contains a nucleus, cell membrane, cytoplasm, mitochondria, ribosomes
Plant cell 
Contains a nucleus, cell membrane, cytoplasm, mitochondria, ribosomes, chloroplasts, permanent vacuole, cell wall
Animal and plant cells are both eukaryotic cells
Prokaryotic cell 
Contains a cell membrane, cytoplasm, ribosomes, cell wall, genetic material not enclosed in a nucleus, may have plasmids and flagella
Prokaryotic cells, such as bacteria, are different from eukaryotic cells as they lack a nucleus and other membrane-bound organelles
Sperm cell 
Has a tail to help it swim
Has many mitochondria in the mid-piece to provide energy
Has an acrosome containing enzymes to break down the egg
Has a large nucleus to contain DNA
Muscle cell 
Has many mitochondria to release energy for contraction
Has special proteins that cause contraction by sliding across each other
Can store glycogen to be broken down for respiration
Nerve cell 
Has a long axon to carry electrical impulses
Has dendrites to connect to other nerve cells
Has nerve endings that release chemical messengers
Root hair cell 
Has a large surface area for absorption
Has a large permanent vacuole to speed up osmosis
Has many mitochondria for active transport of ions
Xylem cell 
Forms long hollow tubes to allow easy movement of water and minerals
Has spirals of lignin to strengthen the cell walls and support the plant
Phloem cell 
Has sieve plates with holes to allow easy movement of dissolved food
Has adjacent companion cells with many mitochondria to provide energy for food transport
Diffusion 
The spreading out of particles in a solution or gas from an area of higher concentration to an area of lower concentration
Diffusion is a passive process that does not require additional energy
Factors affecting rate of diffusion
Temperature - higher temperature increases rate
Concentration gradient - steeper gradient increases rate
Surface area - larger surface area increases rate
Osmosis 
The diffusion of water molecules from a dilute solution to a more concentrated solution through a partially permeable membrane
Osmosis is a passive process that occurs down a concentration gradient
Osmosis is important in animal cells to maintain the right internal environment
Osmosis 
1. Occurs down a concentration gradient or from a dilute solution to a more concentrated solution
2. Net movement of water is from the left side to the right side
3. Water concentration will eventually be equal on both sides
4. Water molecules will continue to move back and forth across the partially permeable membrane but there is no further net movement of water, the water is balanced on both sides
Importance of osmosis in animal cells
Ensures solutes like glucose and salts are at the right concentration inside the cell
The internal environment needs to be kept just right for the cell to work
The difference in concentration between the cell's internal environment and the external solution determines how much osmosis occurs
What happens when a red blood cell is put into a hypotonic solution
Water moves into the cell, stretching it, and the cell may burst if a lot of water moves in, killing the cell
What happens when a red blood cell is put into an isotonic solution
No net movement of water, no osmosis occurs
What happens when a red blood cell is put into a hypertonic solution
Water moves out of the red blood cell and into the beaker, the cell will shrink and not function properly
Required practical A by osmosis looks at the effect of concentration of salt or sugar on the mass of plant tissue
Active transport 
Moves substances from a more dilute solution to a more concentrated solution, against the concentration gradient, requiring energy from respiration
Examples of active transport
Mineral ions moving from the dilute solution in the soil into the more concentrated solution in the root hair cells
Glucose moving from the dilute solution in the small intestine into the more concentrated solution in the blood vessels
Nucleus 
Contains chromosomes made up of DNA, which codes for genes
Cell cycle 
1. Stage 1: Cell growth, DNA replication
2. Stage 2: Mitosis - chromosomes pulled to each end, nucleus divides
3. Stage 3: Cytoplasm and cell membrane divide to form two identical cells
Importance of mitosis and the cell cycle 
Development, growth, and repair
Stem cell 
Undifferentiated cell capable of differentiating into specialized cells and regenerating new stem cells
Embryonic stem cells 
Found in the embryo, can differentiate into many cell types, can be cloned
Adult stem cells 
Found in some adult tissues, more limited in the cell types they can differentiate into
Plant stem cells 
Found in meristem tissue, can differentiate into all plant cell types even in adulthood, can be used to clone plants
Issues with stem cells include risk of viruses, rejection, and ethical concerns
Aseptic technique steps 
1. Grow bacteria in sterile culture medium
2. Sterilize petri dishes and equipment
3. Sterilize inoculating loop
4. Spread bacteria and seal petri dish
5. Incubate at 25 or lower
Aseptic technique prevents contamination of bacterial cultures