Science 4 Inquiry
Eukaryotic Cells: The Factories of Life
Eukaryotes include humans, animals, and plants. Scholars learn about the parts of eukaryotic cells. They design models of a store and match the correct function of each part to the function of a part of the cell. They review their...
Curated OER
Cell Structures and Their Functions
Life science learners investigate live cells. They examine wet mount slides of cyanobacteria and Elodea plants. They peer into the dynamic microscopic world of protists. Afterward, they construct a model of a cell, including rudimentary...
Curated OER
Plant Cell Coloring
In this cells worksheet, students review the 14 organelles found in plant cells. Students identify their shape by coloring them in on a plant cell diagram.
Virginia Department of Education
Cell Parts
What do a bird, an egg, a rabbit, and a toad all have in common? This fun-filled resource explains the similarities and differences between cells and how all cells are similar, yet all are different. Learners begin by depicting a...
Curated OER
Slimy Cells
Students create three-dimensional cell models. They may choose to make either a plant or animal cell but must use a Ziploc bag as the cell membrane, slime for the cytoplasm, and strawberry baskets for the cell wall if making a plant...
Curated OER
Plant and Animal Cells: Alike and Different?
Seventh graders create a mneumonic device and a graphic organizer about the parts of plant and animal cells. In this biology instructional activity students are introduced to the parts of the cells and then work in groups to create...
Curated OER
A Glimmer of Beauty: Lesson Plan
Fully analyze the elements of art and unexpected beauty in the William Merritt Chase's Still Life with a Fish. The class will examine the painting very closely, then use photography to express unexpected beauty in still life. This is a...
American Society for Microbiology
”Build a Bacterium” Scavenger Hunt
An exciting activity has scholars use cell parts to build bacteria through cooperation with other groups. Each group has some of the cell parts needed, but they must trade with other groups to be able to fulfill their function as a...
Curated OER
DNA, the Awesome Thread of Life
Students examine how traits are passed to offspring. In this genetic reproduction lesson students develop a model of dna and learn about its structure, replication and function.
Curated OER
WHAT IS A CELL?
Students explore the function and structures of cells, including plant and animal cells. They explore cell parts including cell wall, ribosomes, chromosomes, nucleoid, plasmids, flagella, pilli, and plasma membrane, cel
Odell Education
Plant and Animal Cells
Incorporate multiple facets of the cell into your next high school lab! Through an introduction to cell organelles, class members observe each cell type and draw visuals to further demonstrate understanding of cellular processes in both...
Curated OER
Plasmolysis in Elodea Plant Cells
Students microscopically observe various subcellular components. They determine the effects of different salt solutions on Elodea plant cells. They detect the presence of chloroplasts, cell walls, and cell membranes of Elodea.
Curated OER
Parts of a Cell
Pupils explore the parts of a cell. They identify the structures of plant and animal cells. Students explain the functions of plant and animal cells. They compare and contrast animal cells to plant cells. Pupils create a model of the cell.
Curated OER
The Cell
Students visualize plant and animal cells, explain the parts of a cell and their functions and distinguish plant cells from animal cells. Working Students, in groups, must present a particular portion of a cell to the entire class.
Texas Heart Institute
Anatomy: How Does the Cardiovascular System Work?
How can the circulatory system compare to a city map? Pupils distinguish the "roadways" and "vehicles" of the cardiovascular system, compare the anatomy and function of veins and arteries, and review different types of blood cells with...
Curated OER
Parts of the Cell
Students examine plant and animal cells to observe the organelles present in the cell, to match the function of each to the organelle on a cell model and to build a model of the plant or animal cell.
Curated OER
Those Cells Look Good Enough to Eat
Students explore the parts of the cell. In this cell lesson, students use foods to create cell models that represent the nucleus, cytoplasm, cell membrane, mitochondria, ribosomes, vacuoles, endoplasmic reticulum, and Golgi bodies...
Curated OER
Bread Cells
Fifth graders examine plant and animal cells. In this plant and animal cell lesson, 5th graders define what cells are, label their parts, and describe how plant and animal cells are different. They observe cells at a number of web sites,...
Curated OER
Onion Cells
Learners observe the cells of an onion by wet mounting it and viewing it in a microscope. In this hands on lesson students make their own wet mount slide of an onion and are able to identify the cells in it such as, the nucleus,...
Curated OER
The Cell
Tenth graders explore the parts of a cell. In pairs, classmates construct a model of a eukaryotic cell, detailing its morphology and function. With the use of computer technology, 10th graders create cell book for middle schoolers. ...
Curated OER
The Cell: Unit of Life
Students identify the parts of plant and animal cells, how samples can be obtained and what the differences are.
Curated OER
Hands-on Cells
Pupils review the components of a cell and the differences between plant and animal cells by creating a three-dimensional model of each type of cell. In small groups, they use modeling clay and household object to construct their models.
Curated OER
MAKING THREE DIMENSIONAL PLANT AND ANIMAL CELLS
Students create two different cells, one plant and one animal. In this plant and animal cell lesson students form groups and construct a part of a cell. Students then put them all together to form one plant or animal cell.
Curated OER
How Can We Study the Differences in Animal and Plant Cells Using the Compound Microscope?
Learners examine their cheek cells with a compound microscope. They identify different parts of the cell. They compare and contrast animal and plant cells with the microscope as well.