-All living things are made up of cells

-Cells are the basic units of all life

-All cells come from pre-existing cells

Osmosis is the movement of water across a semipermeable membrane from an area of low solute concentration to an area of high solute concentration. This process continues until the concentration of solutes is equal on both sides of the membrane, helping to balance things out.

It's a vital process for life, enabling plants to absorb water and helping organisms maintain fluid balance. 

Plants: Root hairs absorb water from soil; wilting when soil is dry, turgidity when watered. 

Producers create their own food using energy from the sun or chemicals, while consumers obtain energy by eating other organisms.

Producers are eaten by herbivores (primary consumers) which are eaten by carnivores (secondary consumers) which are eventually broken down by decomposers.

Organelles found only in plant cells are the cell wall, chloroplasts, and a large central vacuole.

Diffusion: cells get the oxygen and nutrients they need and remove waste.

Osmosis: balances water content inside cells to stop them from swelling or shrinking.

Essentially - these processes ensure that cells function correctly to keep an organism healthy.

sunlight, water, temperature, soil, air, humidity, pH, and salinity

Major disruptions that "break" a food chain can occur because of:

-invasive species

-pollution

-climate change

-habitat loss (deforestation)

-disease

-removing key species (like predators or pollinators)

The main difference is that unicellular organisms are single-celled, with one cell performing all life functions, while multicellular organisms are made of many cells that work together and have specialized roles. 

This leads to multicellular organisms having more complex structures and a division of labor, while unicellular organisms are simpler and more self-sufficient at the cellular level.

Cells to tissues, tissues to organs, organs to organ systems, and organ systems to organisms.

Levels of Organization

• Within a Cell: Even a single cell has internal structure, with organelles (like mitochondria, nucleus) organized by the cytoskeleton to perform specific jobs.
• Cells to Tissues: Similar cells, specialized for a particular role, group together to form a tissue (e.g., muscle tissue, nervous tissue).
• Tissues to Organs: Different tissues combine to form organs, each with a unique function (e.g., the heart, lungs, stomach).
• Organs to Organ Systems: Organs with related functions work together as organ systems (e.g., digestive system, circulatory system).
• Organ Systems to Organism: All organ systems work together to create a complete, functioning living being.

-Plants need sunlight, soil, and water to grow.

-Animals need water, air, and food to survive.

-Microorganisms decompose dead plants and animals to return nutrients to the soil.

The nitrogen cycle is Earth's way of recycling nitrogen, moving it from the air to soil, living things, and back, involving key steps: Fixation, Nitrification, Assimilation, Ammonification, and Denitrification.

The carbon cycle is the natural process by which carbon atoms move between the atmosphere, oceans, and living organisms through both fast biological processes like photosynthesis and respiration, and slower geological processes like rock weathering and fossil fuel formation. This cycle is essential for life on Earth, but human activities, primarily burning fossil fuels, are releasing excess carbon into the atmosphere at a rate that disrupts the natural balance, contributing to climate change. 

The water cycle is the continuous process where water moves through evaporation, condensation, and precipitation, powered by the sun and gravity. Water evaporates from oceans, lakes, and rivers into the atmosphere, where it cools and condenses to form clouds. When clouds become saturated, water falls back to Earth as precipitation (rain, snow, sleet, or hail). This water then collects in bodies of water or soaks into the ground, and the cycle repeats.