Grade 5

Other Mississippi Science sets

• Grade K
• Grade 1
• Grade 2
• Grade 3
• Grade 4
• Grade 6
• Grade 7
• Grade 8
• High School: Biology
• High School: Botany
• High School: Chemistry
• High School: Chemistry (Enrichment)
• High School: Earth and Space Science
• High School: Environmental Science
• High School: Foundations of Biology
• High School: Foundations of Science Literacy
• High School: Genetics
• High School: Human Anatomy and Physiology
• High School: Marine and Aquatic Science I
• High School: Marine and Aquatic Science II
• High School: Physical Science
• High School: Physics
• High School: Zoology I (Invertebrate)
• High School: Zoology II (Vertebrate)

Obtain and evaluate scientific information to describe basic physical properties of atoms and molecules.P.5.5A.1

Collect, analyze, and interpret data from measurements of the physical properties of solids, liquids, and gases (e.g., volume, shape, movement, and spacing of particles).P.5.5A.2

Analyze matter through observations and measurements to classify materials (e.g., powders, metals, minerals, or liquids) based on their properties (e.g., color, hardness, reflectivity, electrical conductivity, thermal conductivity, response to magnetic forces, solubility, or density).P.5.5A.3

Make and test predictions about how the density of an object affects whether the object sinks or floats when placed in a liquid.P.5.5A.4

Design a vessel that can safely transport a dense substance (e.g., syrup, coins, marbles) through water at various distances and under variable conditions. Use an engineering design process to define the problem, design, construct, evaluate, and improve the vessel.P.5.5A.5

Obtain and evaluate scientific information to describe what happens to the properties of substances in mixtures and solutions.P.5.5B.1

Analyze and interpret data to communicate that the concentration of a solution is determined by the relative amount of solute versus solvent in various mixtures.P.5.5B.2

Investigate how different variables (e.g., temperature change, stirring, particle size, or surface area) affect the rate at which a solute will dissolve.P.5.5B.3

Design an effective system (e.g., sifting, filtration, evaporation, magnetic attraction, or floatation) for separating various mixtures. Use an engineering design process to define the problem, design, construct, evaluate, and improve the system.P.5.5B.4

Analyze and communicate the results of chemical changes that result in the formation of new materials (e.g., decaying, burning, rusting, or cooking).P.5.5C.1

Analyze and communicate the results of physical changes to a substance that results in a reversible change (e.g., changes in states of matter with the addition or removal of energy, changes in size or shape, or combining/separating mixtures or solutions).P.5.5C.2

Analyze and interpret data to support claims that when two substances are mixed, the total weight of matter is conserved.P.5.5C.3

Obtain and communicate information describing gravity's effect on an object.P.5.6A.1

Predict the future motion of various objects based on past observation and measurement of position, direction, and speed.P.5.6A.2

Develop and use models to explain how the amount or type of force, both contact and non-contact, affects the motion of an object.P.5.6A.3

Plan and conduct scientific investigations to test the effects of balanced and unbalanced forces on the speed and/or direction of objects in motion.P.5.6A.4

Predict how a change of force, mass, and/or friction affects the motion of an object to convert potential energy into kinetic energy.P.5.6A.5

Design a system to increase the effects of friction on the motion of an object (e.g., non-slip surfaces or vehicle braking systems or flaps on aircraft wings). Use an engineering design process to define the problem, design, construct, evaluate, and improve the system.P.5.6A.6

Develop and use scaled models of Earth's solar system to demonstrate the size, composition (i.e., rock or gas), location, and order of the planets as they orbit the Sun.E.5.8A.1

Use evidence to argue why the sun appears brighter than other stars.E.5.8A.2

Describe how constellations appear to move from Earth's perspective throughout the seasons (e.g., Ursa Major, Ursa Minor, and Orion).E.5.8A.3

Construct scientific arguments to support claims about the importance of astronomy in navigation and exploration, including the use of telescopes, compasses, and star charts.E.5.8A.4

Analyze and interpret data from observations and research (e.g., from NASA, NOAA, or the USGS) to explain patterns in the location, movement, and appearance of the moon throughout a month and over the course of a year.E.5.8B.1

Develop and use a model of the Earth-Sun-Moon system to analyze the cyclic patterns of lunar phases, solar and lunar eclipses, and seasons.E.5.8B.2

Develop and use models to explain the factors (e.g., tilt, revolution, and angle of sunlight) that result in Earth's seasonal changes.E.5.8B.3

Obtain information and analyze how our understanding of the solar system has evolved over time (e.g., Earth-centered model of Aristotle and Ptolemy compared to the Sun-centered model of Copernicus and Galileo).E.5.8B.4

Collect and organize scientific ideas that individuals and communities can use to conserve Earth's natural resources and systems (e.g., implementing watershed management practices to conserve water resources, utilizing no-till farming to improve soil fertility, reducing emissions to abate air pollution, or recycling to reduce landfill waste).E.5.10A.1

Design a process for better preparing communities to withstand manmade or natural disasters (e.g., removing oil from water or soil, systems that reduce the impact of floods, structures that resist hurricane forces). Use an engineering design process to define the problem, design, construct, evaluate, and improve the disaster plan.E.5.10A.2