ALEX Resources

   View Standards     Standard(s): [SC2015] LSC7 (7) 3 :

3 ) Construct an explanation of the function (e.g., mitochondria releasing energy during cellular respiration) of specific cell structures (i.e., nucleus, cell membrane, cell wall, ribosomes, mitochondria, chloroplasts, and vacuoles) for maintaining a stable environment.

[SC2015] LSC7 (7) 5 :

5 ) Examine the cycling of matter between abiotic and biotic parts of ecosystems to explain the flow of energy and the conservation of matter.

a. Obtain, evaluate, and communicate information about how food is broken down through chemical reactions to create new molecules that support growth and/or release energy as it moves through an organism.

b. Generate a scientific explanation based on evidence for the role of photosynthesis and cellular respiration in the cycling of matter and flow of energy into and out of organisms.

Understanding the energy conversion capability of photosynthesis and the artificial nanostructured photocatalysts contrast biotic and abiotic systems, while demonstrating the efficiency of photosynthesis compared to titanium dioxide nanoparticles in generating gas production volumetrically. The experiment results transition to a discussion of photosynthesis and the organelles within the cell where it takes place.  This lesson explores  light energy capture and transformation into chemical energy during photosynthesis.  The lesson can lead to discussion of renewable energy conversion methods and nanotechnology, to help advance nanoscience research to solve the challenging energy issues in the future.     

   View Standards     Standard(s): [SC2015] LSC7 (7) 5 :

5 ) Examine the cycling of matter between abiotic and biotic parts of ecosystems to explain the flow of energy and the conservation of matter.

a. Obtain, evaluate, and communicate information about how food is broken down through chemical reactions to create new molecules that support growth and/or release energy as it moves through an organism.

b. Generate a scientific explanation based on evidence for the role of photosynthesis and cellular respiration in the cycling of matter and flow of energy into and out of organisms.

[SC2015] LSC7 (7) 6 :

6 ) Analyze and interpret data to provide evidence regarding how resource availability impacts individual organisms as well as populations of organisms within an ecosystem.

Students will participate in a discussion of the Moon´s habitability. The students will create a plan for the design and creation of a self-sustaining ecosystem within a lunar station.

This lesson was created as part of the 2016 NASA STEM Standards of Practice Project, a collaboration between the Alabama State Department of Education and NASA Marshall Space Flight Center.

   View Standards     Standard(s): [SC2015] LSC7 (7) 7 :

7 ) Use empirical evidence from patterns and data to demonstrate how changes to physical or biological components of an ecosystem (e.g., deforestation, succession, drought, fire, disease, human activities, invasive species) can lead to shifts in populations.

[SC2015] LSC7 (7) 5 :

5 ) Examine the cycling of matter between abiotic and biotic parts of ecosystems to explain the flow of energy and the conservation of matter.

a. Obtain, evaluate, and communicate information about how food is broken down through chemical reactions to create new molecules that support growth and/or release energy as it moves through an organism.

b. Generate a scientific explanation based on evidence for the role of photosynthesis and cellular respiration in the cycling of matter and flow of energy into and out of organisms.

[SC2015] ES6 (6) 7 :

7 ) Use models to construct explanations of the various biogeochemical cycles of Earth (e.g., water, carbon, nitrogen) and the flow of energy that drives these processes.

[SC2015] ES6 (6) 14 :

14 ) Analyze and interpret data (e.g., tables, graphs, maps of global and regional temperatures; atmospheric levels of gases such as carbon dioxide and methane; rates of human activities) to describe how various human activities (e.g., use of fossil fuels, creation of urban heat islands, agricultural practices) and natural processes (e.g., solar radiation, greenhouse effect, volcanic activity) may cause changes in local and global temperatures over time.

[SC2015] ES6 (6) 15 :

15 ) Analyze evidence (e.g., databases on human populations, rates of consumption of food and other natural resources) to explain how changes in human population, per capita consumption of natural resources, and other human activities (e.g., land use, resource development, water and air pollution, urbanization) affect Earth's systems.

Students will explore greenhouse gases, how they effect the carbon cycle and the human role in climate change.  

This lesson was created as part of the 2016 NASA STEM Standards of Practice Project, a collaboration between the Alabama State Department of Education and NASA Marshall Space Flight Center.

   View Standards     Standard(s): [SC2015] LSC7 (7) 5 :

5 ) Examine the cycling of matter between abiotic and biotic parts of ecosystems to explain the flow of energy and the conservation of matter.

a. Obtain, evaluate, and communicate information about how food is broken down through chemical reactions to create new molecules that support growth and/or release energy as it moves through an organism.

b. Generate a scientific explanation based on evidence for the role of photosynthesis and cellular respiration in the cycling of matter and flow of energy into and out of organisms.

The Barn Owl Pellet Lab includes hands-on, inquiry-based activities. During this lab activity, students will dissect two Barn Owl pellets. The dissection allows students to compare the data collected from the two pellets. The student worksheets that accompany this lesson require students to: make predictions, perform mathematical calculations, construct a graph, classify bones into types, separate bones by prey type, and draw conclusions about the owl’s environment based on the dissection findings.

   View Standards     Standard(s): [SC2015] LSC7 (7) 5 :

5 ) Examine the cycling of matter between abiotic and biotic parts of ecosystems to explain the flow of energy and the conservation of matter.

a. Obtain, evaluate, and communicate information about how food is broken down through chemical reactions to create new molecules that support growth and/or release energy as it moves through an organism.

b. Generate a scientific explanation based on evidence for the role of photosynthesis and cellular respiration in the cycling of matter and flow of energy into and out of organisms.

Through the process of photosynthesis, plants harness the Sun's energy and in so doing make many forms of life—including human life—possible. What path does this energy follow, and how is it transferred from one type of organism to another? In this feature from NOVA: Earth, learn why 400 pounds of corn cannot be converted into a 400-pound cow.

   View Standards     Standard(s): [SC2015] (5) 14 :

14 ) Use a model to represent how any two systems, specifically the atmosphere, biosphere, geosphere, and/or hydrosphere, interact and support life (e.g., influence of the ocean on ecosystems, landform shape, and climate; influence of the atmosphere on landforms and ecosystems through weather and climate; influence of mountain ranges on winds and clouds in the atmosphere).

[SC2015] LSC7 (7) 5 :

5 ) Examine the cycling of matter between abiotic and biotic parts of ecosystems to explain the flow of energy and the conservation of matter.

a. Obtain, evaluate, and communicate information about how food is broken down through chemical reactions to create new molecules that support growth and/or release energy as it moves through an organism.

b. Generate a scientific explanation based on evidence for the role of photosynthesis and cellular respiration in the cycling of matter and flow of energy into and out of organisms.

   View Standards     Standard(s): [SC2015] LSC7 (7) 3 :

3 ) Construct an explanation of the function (e.g., mitochondria releasing energy during cellular respiration) of specific cell structures (i.e., nucleus, cell membrane, cell wall, ribosomes, mitochondria, chloroplasts, and vacuoles) for maintaining a stable environment.

[SC2015] LSC7 (7) 5 :

5 ) Examine the cycling of matter between abiotic and biotic parts of ecosystems to explain the flow of energy and the conservation of matter.

a. Obtain, evaluate, and communicate information about how food is broken down through chemical reactions to create new molecules that support growth and/or release energy as it moves through an organism.

b. Generate a scientific explanation based on evidence for the role of photosynthesis and cellular respiration in the cycling of matter and flow of energy into and out of organisms.

The cells of plants include several parts, such as the cell body, cytoplasm, mitochondria, nucleus, vacuole, cell membrane, cell wall, and chloroplasts. Only plant cells have plant walls and chloroplasts.

The classroom resource provides a slide show that will describe the structures of a plant cell. In addition, there is a sing-along video that students can perform karaoke-style that will help them remember the different structures. After utilizing these two resources, the students can complete the short test to assess their understanding.

   View Standards     Standard(s): [SC2015] LSC7 (7) 5 :

5 ) Examine the cycling of matter between abiotic and biotic parts of ecosystems to explain the flow of energy and the conservation of matter.

a. Obtain, evaluate, and communicate information about how food is broken down through chemical reactions to create new molecules that support growth and/or release energy as it moves through an organism.

b. Generate a scientific explanation based on evidence for the role of photosynthesis and cellular respiration in the cycling of matter and flow of energy into and out of organisms.

[ELA2021] (7) 1 :

1. Evaluate the contributions of informational text elements, including categories, point of view, purpose, and figurative, connotative, and technical word meanings, to develop central and supporting ideas.

The teacher will present an informational text from the website, ReadWorks. Students will interact with this non-fiction text by annotating the text digitally. The students will answer the questions associated with the article as an assessment. This learning activity will help explain the role of photosynthesis in cycling matter and energy into and out of organisms. The nonfiction text presents an experiment that will help explain the process of photosynthesis in an engaging, high-interest manner.