Earn Transferable Credit & Get your Degree, Scientific Explanation: Definition & Examples, Cooperative Learning: Strategies & Techniques, Constructivist Teaching: Principles & Explanation, Scientific Inquiry Lesson for Kids: Process & Definition, Linguistic Diversity: Definition & Overview, What is Scientific Investigation? Some possible reasons include: • Contagious yawns provide social bonding. The switching between wet and dry lets gypsum crystals form between grains of sand, trapping them. Kilauea. K-LS1-1: Plant and Animal NeedsK-ESS2-1: Weather PatternsK-ESS2-2: Environmental ChangeK-ESS3-1: Environmental RelationshipsK-ESS3-2: Forecasting Severe WeatherK-ESS3-3: Environmental SolutionsK-PS2-1: Pushes, Pulls, and MotionK-PS2-2: Motion Design SolutionK-PS3-1: Sunlight Warms the EarthK-PS3-2: Shade Structure Design, 1-LS1-1: Biomimicry Design Solution1-LS1-2: Behavior - Parents and Offspring1-LS3-1: Plant and Animal Structures - Parents and Offspring1-ESS1-1: Sun, Moon, and Star Patterns1-ESS1-2: Seasonal Sunlight1-PS4-1: Sound and Vibrating Materials1-PS4-2: Illumination and Darkness1-PS4-3: Light and Materials1-PS4-4: Communication Device Design, 2-LS2-1: Environmental Plant Needs2-LS2-2: Seed Dispersal and Pollination2-LS4-1: Habitats and Biodiversity2-ESS1-1: Earth Events - Slow and Quick2-ESS2-1: Erosion Design Solution 2-ESS2-2: Mapping Land and Water2-ESS2-3: Water on Earth2-PS1-1: Material Properties2-PS1-2: Materials Testing2-PS1-3: Objects and Pieces2-PS1-4: Reversible and Irreversible Changes, 3-LS1-1: Plant and Animal Life Cycles3-LS2-1: Animal Groups3-LS3-1: Inheritance and Variation of Traits3-LS3-2: Environmental Influence on Traits3-LS4-1: Fossil Evidence of Past Environments3-LS4-2: Variation, Survival, and Reproduction3-LS4-3: Habitats and Organism Survival3-LS4-4: Environmental Change Solution3-ESS2-1: Seasonal Weather Conditions3-ESS2-2: World Climates3-ESS3-1: Weather-Related Hazard Solution3-PS2-1: Balanced and Unbalanced Forces3-PS2-2: Predicting Future Motion3-PS2-3: Electric and Magnetic Forces3-PS2-4: Magnetic Design Solution, 4-LS1-1: Internal and External Structures4-LS1-2: Sensation, Processing, and Response4-ESS1-1: Evidence from Rock Layers4-ESS2-1: Weathering and Erosion4-ESS2-2: Mapping Earth's Features4-ESS3-1: Renewable and Non-renewable Energy4-ESS3-2: Natural Hazard Design Solution4-PS3-1: Motion Energy4-PS3-2: Energy Transfer4-PS3-3: Energy in Collisions4-PS3-4: Energy Conversion Device4-PS4-1: Wave Model4-PS4-2: Light and Vision4-PS4-3: Information Transfer Solution, 5-LS1-1: Plant Requirements - Air and Water5-LS2-1: Environmental Matter Cycling5-ESS1-1: Stellar Brightness and Distance5-ESS1-2: Daily and Seasonal Sky Changes5-ESS2-1: Earth Sphere Interactions5-ESS2-2: Water Availability and Distribution5-ESS3-1: Protecting Earth's Resources and Environment5-PS1-1: Particle Model of Matter5-PS1-2: Conservation of Matter5-PS1-3: Material Properties5-PS1-4: Mixing Substances5-PS2-1: Earth's Gravitational Force5-PS3-1: Food Energy from the Sun, MS-LS1-1: Cell TheoryMS-LS1-2: Cell Parts and FunctionMS-LS1-3: Interacting Body SystemsMS-LS1-4: Animal Behaviors and Plant Structures - Reproductive SuccessMS-LS1-5: Environmental and Genetic Growth FactorsMS-LS1-6: Photosynthesis - Matter Cycling and Energy FlowMS-LS1-7: Food and Chemical ReactionsMS-LS1-8: Information ProcessingMS-LS2-1: Effects of Resource AvailabilityMS-LS2-2: Interdependent Relationships in EcosystemsMS-LS2-3: Matter Cycling and Energy Flow in EcosystemsMS-LS2-4: Ecosystem Interactions and DynamicsMS-LS2-5: Biodiversity and Ecosystem Services SolutionsMS-LS3-1: Mutations - Harmful, Beneficial or NeutralMS-LS3-2: Asexual and Sexual ReproductionMS-LS4-1: Fossil Evidence of Common Ancestry and DiversityMS-LS4-2: Anatomical Evidence of Evolutionary RelationshipsMS-LS4-3: Embryological Evidence of Common AncestryMS-LS4-4: Natural SelectionMS-LS4-5: Artificial SelectionMS-LS4-6: Adaptation of Populations over Time, HS-LS1-1: Genes, Proteins, and TissuesHS-LS1-2: Interacting Body SystemsHS-LS1-3: Feedback Mechanisms and HomeostasisHS-LS1-4: Cellular Division and DifferentiationHS-LS1-5: Photosynthesis and Energy TransformationHS-LS1-6: Formation of Carbon-Based MoleculesHS-LS1-7: Cellular Respiration and Energy TransferHS-LS2-1: Carrying Capacity of EcosystemsHS-LS2-2: Biodiversity and Populations in EcosystemsHS-LS2-3: Aerobic and Anaerobic Cycling of MatterHS-LS2-4: Biomass and Trophic LevelsHS-LS2-5: Cycling of Carbon in EcosystemsHS-LS2-6: Ecosystem Dynamics, Functioning, and ResilienceHS-LS2-7: Human Impact Reduction SolutionHS-LS2-8: Social Interactions and Group BehaviorHS-LS3-1: Chromosomal InheritanceHHS-LS3-2: Inheritable Genetic VariationHS-LS3-3: Variation and Distribution of TraitsHS-LS4-1: Evidence of Common Ancestry and DiversityHS-LS4-2: Four Factors of Natural SelectionHS-LS4-3: Adaptation of PopulationsHS-LS4-4: Natural Selection Leads to AdaptationHS-LS4-5: Environmental Change - Speciation and ExtinctionHS-LS4-6: Human Impact on Biodiversity Solution, MS-ESS1-1: Earth-Sun-Moon SystemMS-ESS1-2: Gravity and Motions in SpaceMS-ESS1-3: Scale Properties in the Solar SystemMS-ESS1-4: Geologic Time ScaleMS-ESS2-1: Cycling of Earth's MaterialsMS-ESS2-2: Geoscience Processes at Varying ScalesMS-ESS2-3: Evidence of Plate TectonicsMS-ESS2-4: Cycling of Water Through Earth's SystemsMS-ESS2-5: Interacting Air Masses and WeatherMS-ESS2-6: Atmospheric and Oceanic CirculationMS-ESS3-1: Uneven Distribution of Earth's ResourcesMS-ESS3-2: Natural HazardsMS-ESS3-3: Human Impact on the EnvironmentMS-ESS3-4: Human Consumption of Natural ResourcesMS-ESS3-5: Causes of Global Warming, HS-ESS1-1: Nuclear Fusion and the Sun's EnergyHS-ESS1-2: The Big Bang TheoryHS-ESS1-3: Stellar NucleosynthesisHS-ESS1-4: Orbital MotionsHS-ESS1-5: Evidence of Plate TectonicsHS-ESS1-6: Evidence of the Earth's HistoryHS-ESS2-1: The Creation of LandformsHS-ESS2-2: Feedback in Earth's SystemsHS-ESS2-3: Cycling of Matter in the Earth's InteriorHS-ESS2-4: Energy Variation and Climate ChangeHS-ESS2-5: Interactions of the Hydrologic and Rock CyclesHS-ESS2-6: Carbon Cycling in Earth's SystemsHS-ESS2-7: Coevolution of Life and Earth's SystemsHS-ESS3-1: Global Impacts on Human ActivityHS-ESS3-2: Cost-Benefit Ratio Design SolutionsHS-ESS3-3: Biodiversity, Natural Resources, and Human SustainabilityHS-ESS3-4: Reducing Human Impact Design SolutionsHS-ESS3-5: Climate Change and Future ImpactsHS-ESS3-6: Human Impacts on Earth Systems, MS-PS1-1: Atomic Composition ModelMS-PS1-2: Chemical Properties and ReactionsMS-PS1-3: Synthetic MaterialsMS-PS1-4: Thermal Energy and Particle MotionMS-PS1-5: Conservation of Atoms in ReactionsMS-PS1-6: Thermal Energy Design ProjectMS-PS2-1: Collision Design SolutionMS-PS2-2: Forces, Mass and the Motion of an ObjectMS-PS2-3: Electric and Magnetic ForcesMS-PS2-4: Gravitational InteractionsMS-PS2-5: Electric and Magnetic FieldsMS-PS3-1: Kinetic Energy of an ObjectMS-PS3-2: Potential Energy of the SystemMS-PS3-3: Thermal Energy Transfer SolutionMS-PS3-4: Thermal Energy TransferMS-PS3-5: Energy Transfer to or from an ObjectMS-PS4-1: Wave PropertiesMS-PS4-2: Wave Reflection, Absorption, and TransmissionMS-PS4-3: Digitized Wave Signals, HS-PS1-1: Valence Electrons and Properties of ElementsHS-PS1-2: Simple Chemical ReactionsHS-PS1-3: Electrical Forces and Bulk Scale StructureHS-PS1-4: Total Bond Energy Change in Chemical ReactionsHS-PS1-5: Collision Theory and Rates of ReactionHS-PS1-6: Increased Products Design SolutionHS-PS1-7: Conservation of Atoms in Chemical ReactionsHS-PS1-8: Fission, Fusion, and Radioactive DecayHS-PS2-1: Newton's Second Law of MotionHS-PS2-2: Conservation of MomentumHS-PS2-3: Reducing Force in Collisions Device HS-PS2-4: Gravitational and Electrostatic Forces Between ObjectsHS-PS2-5: Electric Current and Magnetic FieldsHS-PS2-6: Molecular-Level Structure of Designed MaterialsHS-PS3-1: Energy Change in Components of a SystemHS-PS3-2: Macroscopic Energy Due to Particle Position and MotionHS-PS3-3: Energy Conversion Device DesignHS-PS3-4: The Second Law of ThermodynamicsHS-PS3-5: Energy Change Due to Interacting FieldsHS-PS4-1: Wave Properties in Various MediaHS-PS4-2: Digital Transmission and Storage of InformationHS-PS4-3: Wave-Particle Duality of Electromagnetic RadiationHS-PS4-4: Absorption of Electromagnetic RadiationHS-PS4-5: Waves and Information Technology, 1-LS1-2: Behavior - Parents and Offspring, 1-LS3-1: Plant and Animal Structures - Parents and Offspring, 2-PS1-4: Reversible and Irreversible Changes, 3-LS3-1: Inheritance and Variation of Traits, 3-LS3-2: Environmental Influence on Traits, 3-LS4-1: Fossil Evidence of Past Environments, 3-LS4-2: Variation, Survival, and Reproduction, 3-ESS3-1: Weather-Related Hazard Solution, 4-LS1-1: Internal and External Structures, 4-LS1-2: Sensation, Processing, and Response, 4-ESS3-1: Renewable and Non-renewable Energy, 5-LS1-1: Plant Requirements - Air and Water, 5-ESS1-1: Stellar Brightness and Distance, 5-ESS2-2: Water Availability and Distribution, 5-ESS3-1: Protecting Earth's Resources and Environment, MS-LS1-4: Animal Behaviors and Plant Structures - Reproductive Success, MS-LS1-5: Environmental and Genetic Growth Factors, MS-LS1-6: Photosynthesis - Matter Cycling and Energy Flow, MS-LS2-1: Effects of Resource Availability, MS-LS2-2: Interdependent Relationships in Ecosystems, MS-LS2-3: Matter Cycling and Energy Flow in Ecosystems, MS-LS2-4: Ecosystem Interactions and Dynamics, MS-LS2-5: Biodiversity and Ecosystem Services Solutions, MS-LS3-1: Mutations - Harmful, Beneficial or Neutral, MS-LS3-2: Asexual and Sexual Reproduction, MS-LS4-1: Fossil Evidence of Common Ancestry and Diversity, MS-LS4-2: Anatomical Evidence of Evolutionary Relationships, MS-LS4-3: Embryological Evidence of Common Ancestry, MS-LS4-6: Adaptation of Populations over Time, HS-LS1-3: Feedback Mechanisms and Homeostasis, HS-LS1-4: Cellular Division and Differentiation, HS-LS1-5: Photosynthesis and Energy Transformation, HS-LS1-6: Formation of Carbon-Based Molecules, HS-LS1-7: Cellular Respiration and Energy Transfer, HS-LS2-1: Carrying Capacity of Ecosystems, HS-LS2-2: Biodiversity and Populations in Ecosystems, HS-LS2-3: Aerobic and Anaerobic Cycling of Matter, HS-LS2-5: Cycling of Carbon in Ecosystems, HS-LS2-6: Ecosystem Dynamics, Functioning, and Resilience, HS-LS2-7: Human Impact Reduction Solution, HS-LS2-8: Social Interactions and Group Behavior, HS-LS3-3: Variation and Distribution of Traits, HS-LS4-1: Evidence of Common Ancestry and Diversity, HS-LS4-2: Four Factors of Natural Selection, HS-LS4-4: Natural Selection Leads to Adaptation, HS-LS4-5: Environmental Change - Speciation and Extinction, HS-LS4-6: Human Impact on Biodiversity Solution, MS-ESS1-3: Scale Properties in the Solar System, MS-ESS2-2: Geoscience Processes at Varying Scales, MS-ESS2-4: Cycling of Water Through Earth's Systems, MS-ESS2-5: Interacting Air Masses and Weather, MS-ESS2-6: Atmospheric and Oceanic Circulation, MS-ESS3-1: Uneven Distribution of Earth's Resources, MS-ESS3-3: Human Impact on the Environment, MS-ESS3-4: Human Consumption of Natural Resources, HS-ESS1-1: Nuclear Fusion and the Sun's Energy, HS-ESS1-6: Evidence of the Earth's History, HS-ESS2-3: Cycling of Matter in the Earth's Interior, HS-ESS2-4: Energy Variation and Climate Change, HS-ESS2-5: Interactions of the Hydrologic and Rock Cycles, HS-ESS2-6: Carbon Cycling in Earth's Systems, HS-ESS2-7: Coevolution of Life and Earth's Systems, HS-ESS3-1: Global Impacts on Human Activity, HS-ESS3-2: Cost-Benefit Ratio Design Solutions, HS-ESS3-3: Biodiversity, Natural Resources, and Human Sustainability, HS-ESS3-4: Reducing Human Impact Design Solutions, HS-ESS3-5: Climate Change and Future Impacts, HS-ESS3-6: Human Impacts on Earth Systems, MS-PS1-2: Chemical Properties and Reactions, MS-PS1-4: Thermal Energy and Particle Motion, MS-PS1-5: Conservation of Atoms in Reactions, MS-PS2-2: Forces, Mass and the Motion of an Object, MS-PS3-3: Thermal Energy Transfer Solution, MS-PS3-5: Energy Transfer to or from an Object, MS-PS4-2: Wave Reflection, Absorption, and Transmission, HS-PS1-1: Valence Electrons and Properties of Elements, HS-PS1-3: Electrical Forces and Bulk Scale Structure, HS-PS1-4: Total Bond Energy Change in Chemical Reactions, HS-PS1-5: Collision Theory and Rates of Reaction, HS-PS1-6: Increased Products Design Solution, HS-PS1-7: Conservation of Atoms in Chemical Reactions, HS-PS1-8: Fission, Fusion, and Radioactive Decay, HS-PS2-3: Reducing Force in Collisions Device, HS-PS2-4: Gravitational and Electrostatic Forces Between Objects, HS-PS2-5: Electric Current and Magnetic Fields, HS-PS2-6: Molecular-Level Structure of Designed Materials, HS-PS3-1: Energy Change in Components of a System, HS-PS3-2: Macroscopic Energy Due to Particle Position and Motion, HS-PS3-3: Energy Conversion Device Design, HS-PS3-4: The Second Law of Thermodynamics, HS-PS3-5: Energy Change Due to Interacting Fields, HS-PS4-1: Wave Properties in Various Media, HS-PS4-2: Digital Transmission and Storage of Information, HS-PS4-3: Wave-Particle Duality of Electromagnetic Radiation, HS-PS4-4: Absorption of Electromagnetic Radiation, HS-PS4-5: Waves and Information Technology, Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License. Study.com has thousands of articles about every Strands can reach as long as 6 feet. While many people think of scientific phenomena as exceptional, unexplained events, the actual scientific use of the term describes any event that can be observed through the senses, such as seeing, hearing, smelling, tasting, and touching. Privacy Policy HS Earth Space Science. You aren't the only one. Please help improve this article by adding citations to reliable sources. In this lesson, we will find out what scientists are referring to when they use the term scientific phenomenon. {{courseNav.course.mDynamicIntFields.lessonCount}} lessons Select a subject to preview related courses: Tornadoes are another scientific phenomenon. study A good phenomenon is observable, interesting, complex, and aligned to the appropriate standard. You can test out of the Scientific phenomena named after people. For example, the Moon Illusion is the apparent increase in the size of the moon when it is closer to the horizon. Some unexplained phenomena include yawning, the Moon Illusion, and the placebo effect.


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