StructureSize Organelles Bacteria Cell membrane thickness Molecule size Eukaryote Cell Virus Complete table above Choose from: Up to 100µm Up to 10 µm.

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Presentation transcript:

StructureSize Organelles Bacteria Cell membrane thickness Molecule size Eukaryote Cell Virus Complete table above Choose from: Up to 100µm Up to 10 µm 1 µm 100nm 10nm 1nm

Objectives Explore cell theory. Name and explain the functions of life. Outcomes (3) Describe the functions of life (5) Explain the development of cell theory (7) Question cell theory using examples which do not fit in with the theory. Key terms: cell, eukaryotic, prokaryotic.

Outcomes (3) Describe the functions of life (5) Explain the development of cell theory (7) Question cell theory using examples which do not fit in with the theory. Key terms: cell, eukaryotic, prokaryotic. What processes does this cell carry out which shows us it is alive?

Outcomes (3) Describe the functions of life (5) Explain the development of cell theory (7) Question cell theory using examples which do not fit in with the theory. Key terms: cell, eukaryotic, prokaryotic.

Outcomes (3) Describe the functions of life (5) Explain the development of cell theory (7) Question cell theory using examples which do not fit in with the theory. Key terms: cell, eukaryotic, prokaryotic.

Outcomes (3) Describe the functions of life (5) Explain the development of cell theory (7) Question cell theory using examples which do not fit in with the theory. Key terms: cell, eukaryotic, prokaryotic. Are there exceptions to cell theory?

Outcomes (3) Describe the functions of life (5) Explain the development of cell theory (7) Question cell theory using examples which do not fit in with the theory. Key terms: cell, eukaryotic, prokaryotic.

Outcomes (3) Describe the functions of life (5) Explain the development of cell theory (7) Question cell theory using examples which do not fit in with the theory. Key terms: cell, eukaryotic, prokaryotic.

Outcomes (3) Describe the functions of life (5) Explain the development of cell theory (7) Question cell theory using examples which do not fit in with the theory. Key terms: cell, eukaryotic, prokaryotic.

Outcomes (3) Describe the functions of life (5) Explain the development of cell theory (7) Question cell theory using examples which do not fit in with the theory. Key terms: cell, eukaryotic, prokaryotic.

Outcomes (3) Describe the functions of life (5) Explain the development of cell theory (7) Question cell theory using examples which do not fit in with the theory. Key terms: cell, eukaryotic, prokaryotic.

Outcomes (3) Describe the functions of life (5) Explain the development of cell theory (7) Question cell theory using examples which do not fit in with the theory. Key terms: cell, eukaryotic, prokaryotic. Paramecium is a genus of unicellular ciliated protozoa, commonly studied as a representative of the Ciliate group. Paramecia are widespread in freshwater, brackish and marine environments, and are often very abundant in stagnant basins and ponds.unicellularciliatedprotozoaCiliatefreshwaterbrackishmarine

Outcomes (3) Describe the functions of life (5) Explain the development of cell theory (7) Question cell theory using examples which do not fit in with the theory. Key terms: cell, eukaryotic, prokaryotic. Chlorella is a genus of single-cell green algae, belonging to the phylum Chlorophyta. It is spherical in shape, about 2 to 10 μm in diameter, and is without flagella. Chlorella contains photosynthetic pigments Through photosynthesis, it multiplies rapidly, requiring only carbon dioxide, water, sunlight, and a small amount of minerals to reproduce.genuscellgreen algaeChlorophytaμmflagellaphotosynthesiscarbon dioxidewatersunlightminerals

Outcomes (3) Describe the functions of life (5) Explain the development of cell theory (7) Question cell theory using examples which do not fit in with the theory. Key terms: cell, eukaryotic, prokaryotic.