NY Earth and Space Science Claims and Evidence

Claim #1 (Space Systems):
A student can construct a mathematical or computational model to describe explanations and defend claims about the origin, evolution, and composition of the expanding universe, the production of electromagnetic energy that is radiated through space, the relative position and motions of Earth in the solar system, and the observations of cyclic patterns of celestial bodies.

Evidence: A student demonstrates understanding of “space systems” through application, evaluation, analysis, and/or synthesis using science and engineering practices, core ideas, and crosscutting concepts related to:

• A model that describes the origin, structure, and motions of celestial bodies within the universe and identify possible/potential cause and effect for changes in these motions; HS-ESS1-1, HS-ESS1-4
• Evidence of star characteristics and the theory of an expanding universe; HS-ESS1-1, HS-ESS1-2
• Synthesis of matter, the production of electromagnetic radiation, and the effects of matter and energy throughout space; HS-ESS1-1, HS-ESS1-3, HS-ESS2-4
• Models that explain the effects of cyclic changes in the Sun–Earth–Moon system; HS-ESS1-4, HS-ESS1-7

Claim #2 (History of Earth):
A student can evaluate evidence from active geologic processes in the rock record, use scientific reasoning, and apply evidence from other planetary bodies to construct an account of Earth’s formation and history, and to develop a model that illustrates how both gradual and catastrophic geologic processes operate at different spatial and temporal scales to change Earth’s geographic features.

Evidence: A student demonstrates understanding of the “history of Earth” through application, evaluation, analysis, and/or synthesis using science and engineering practices, core ideas, and crosscutting concepts related to:

• A model that describes geologic features and their formation at or below Earth’s surface; HS-ESS2-1
• Patterns of change at different spatial and temporal scales that influence the formation and destruction of geologic features; HS-ESS1-5, HS-ESS2-1
• Scientific reasoning and the application of evidence from Earth and other solar system objects that explains Earth’s formation, history, and age; HS-ESS1-6

Claim #3 (Earth's Systems):
A student can develop models and i nvestigations, analyze data and feedback mechanisms, and construct arguments based on evidence that demonstrate the coevolution of life with Earth’s changing systems and the cycling of matter and energy within and between Earth’s systems.

Evidence: A student demonstrates understanding of “Earth’s systems” through application, evaluation, analysis, and/or synthesis using science and engineering practices, core ideas, and crosscutting concepts related to:

• The unique characteristics of water and the effects of water on Earth; HS-ESS2-5
• Geoscience data that relate to how feedback mechanisms create changes within and between Earth’s systems; HS-ESS2-2
• A model of Earth’s spheres that illustrates the interior and exterior cycling of matter and energy; HS-ESS2-3, HS-ESS2-6
• Current and historical evidence to demonstrate an understanding of causality and correlation between Earth systems and the biosphere; HS-ESS2-7

Claim #4 (Weather and Climate):
A student can analyze and evaluate atmospheric and geoscience data to model and communicate information that explains how the flow of energy in Earth’s systems influences past, present, and future changes to Earth’s weather and climate conditions.

Evidence: A student demonstrates understanding of “human sustainability” through application, evaluation, analysis, and/or synthesis using science and engineering practices, core ideas, and crosscutting concepts related to:

• A model that describes how changes in Earth’s climate result from variations in energy flow into and out of Earth’s systems; HS-ESS2-4, HS-ESS3-5
• An understanding of weather variables and how interactions of these variables result in changes in Earth’s systems; HS-ESS2-8, HS-ESS2-4
• Patterns of past and current weather/climate data that are used to forecast short- and long-term atmospheric conditions; HS-ESS2-8, HS-ESS3-5