1
Delta RV Eighth Grade Science Revised-2009
Science Eighth Grade Content Standard 1: Properties and Principles of Matter and Energy GLE 1: Changes in properties and states of matter provide evidence of the atomic theory of matter
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
A Students will: Scope and Sequence—Physical and Chemical Properties and Changes in Matter recognize elements (unique atoms) and compounds (molecules or crystals) are pure substances that have characteristic properties.
3.5 1.2 1.6
Rec
all
The periodic table will be used to identify elements and compounds.
Students will use the periodic chart to correctly determine the number of protons, neutrons, and electrons in an atom. Terms are used correctly and explained.
Objects, and the
materials they are made of,
have properties that can be
used to describe and
classify them
describe the PHYSICAL AND CHEMICAL PROPERTIES (examples—magnetic attraction, conductivity, melting point and boiling point, reactivity) of pure substances (elements or compounds) (examples—copper wire, aluminum wire, iron, charcoal, sulfur, water, salt, sugar, sodium bicarbonate, galena, quartz, magnetite, pyrite) using appropriate senses and tools.
3.5 4.1 1.2 1.3
Skill
/Con
cept
using magnetic force, conductivity, melting point and boiling point, classify various elements and compounds into specific groups.
Teacher observation
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Science Eighth Grade Content Standard 1: Properties and Principles of Matter and Energy GLE 1: Changes in properties and states of matter provide evidence of the atomic theory of matter
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
C Students will:
Properties of matter can be explained in
terms of moving
particles too small to be
seen without tremendous
magnification
Scope and Sequence—Physical and Chemical Properties and Changes of Matter describe evidence (examples—diffusion of colored material into clear material such as water; light reflecting off of dust particles in air; changes in physical properties and reactivity such as gold hammered into foil, oil spreading on the surface of water, decay of organic matter, condensation of water vapor by increased pressure) that supports the theory that matter is composed of moving particles too small to be seen (atoms, molecules).
Skill
/Con
cept
Students will participate in the activity: Diffusion of Perfumes
Students will correctly explain that particles (atoms and molecules) are moving during physical and chemical properties and changes of matter
3
Science Eighth Grade Content Standard 1: Properties and Principles of Matter and Energy GLE 1: Changes in properties and states of matter provide evidence of the atomic theory of matter
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
D Students will: Scope and Sequence—Physical and Chemical Properties and Changes of Matter using the KINETIC THEORY model, illustrate and account for the physical properties (examples—shape, volume, malleability, viscosity) of a solid, liquid, or gas in terms of the arrangement and motion of molecules in a substance.
1.6 1.10 3.5
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The teacher will demonstrate, the students will model and create a Power Point presentation of the molecular Kinetic Theory.
Performance assessment: Construct diagram to compare molecular arrangements in a solid, liquid, and gas
Physical changes in the state of matter that result from
thermal changes can
be explained
by the Kinetic
Theory of Matter
use the KINETIC THEORY model to explain changes in the volume, shape, and viscosity of materials in response to temperature changes during a phase change.
1.6 1.10 3.5
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The students will explain changes in volume, shape and viscosity of matter.
Same as above
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Science Eighth Grade Content Standard 1: Properties and Principles of Matter and Energy GLE 1: Changes in properties and states of matter provide evidence of the atomic theory of matter
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
D Students will:
Physical changes in the state of matter that result from thermal changes
can be explained by the Kinetic Theory of
Matter
predict the effect of transfer on PHYSICAL PROPERTIES of a substance as it changes to or from a solid, liquid, or gas (examples—phase changes that occur during freezing, melting, evaporation, boiling, condensation).
3.5 4.1
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Students will do experiment or activity—Predict Phase Changes of Dry Ice
Assessment of lab form—predict phase changes during lab with dry ice
F
The periodic table organizes the elements according to their atomic structure and
chemical reactivity
Scope and Sequence—Physical and Chemical Properties and Changes in Matter recognize more than 100 known elements (unique atoms) exist that may be combined in nature or by man to produce COMPOUNDS that make up the living and nonliving substances in the environment (DO NOT assess memorization of the Periodic Table).
3.5 4.1
Skill
/Con
cept
The periodic table or chart will be used to identify elements present in the universe. Students will create a portfolio of an element. The student will choose one of the first 20 elements and include in the portfolio the following:
1) diagram of element key and label
2) state of matter 3) model of chosen element 4) research use of element in
technology and every life 5) oral presentation
The objective is to make an atom model showing the number of protons, neutrons, and electrons in an atom. Scoring of model or example Scoring rubric
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Science Eighth Grade Content Standard 1: Properties and Principles of Matter and Energy GLE 1: Changes in properties and states of matter provide evidence of the atomic theory of matter
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
I Students will:
Mass is conserved during any physical or chemical change
Scope and Sequence—Physical and Chemical Properties and Changes in Matter provide evidence the MASS IS CONSERVED DURING A CHEMICAL CHANGE IN A CLOSED SYSTEM (example—vinegar and baking soda, mold growing in a closed container, steel wool rusting).
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Students will participate in an activity on conservation of mass: Demonstration of Mold Growing on a Piece of Bread
Students will write a paragraph to explain how mass is conserved during any physical/chemical change. Scoring of paragraph writing by rubric
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Science Eighth Grade Content Standard 1: Properties and Principles of Matter and Energy GLE 2: Energy has a source, can be transferred, and can be transformed into various forms but is conserved between and within systems Concepts Measurable Learner
Objective Process
Standards Integrated
Skills DOK Instructional Strategies/Student
Activities/Resources Assessment
A Students will: Scope and Sequence—Forms of Energy: Heat recognize thermal energy as the random motion (kinetic energy) of molecules or atoms within a substance.
Rec
all
Students will recall thermal energy is the total of all kinetic and potential energy of all particles in a substance.
Teacher observation
use the kinetic molecular model to explain changes in the temperature of a material.
Skill
/Con
cept
The teacher will show a picture of a horseshoe being made and a person playing horseshoes.
Students will identify temperature and heat. The atoms in an object are in constant motion. When the horseshoe is hot, the particles in it move quickly. When the horseshoe has cooled, the particles move more slowly.
recognize thermal energy is transferred as heat from warmer objects to cooler objects until both reach the same temperature (equilibrium).
Rec
all
Forms of energy have a
source, a means of transfer (work
and heat), and a
receiver
recognize the TYPE OF MATERIALS that transfer energy by conduction, convection, and/or radiation.
Rec
all
Students will participate in the activity: Recognize Types of Transfer of Heat—Conduction, Convection, and Radiation
Classify materials that transfer energy by conduction, and/or radiation—examples—coffee cup and steam, sand heating up, metal spoon in pan, and the sun.
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Science Eighth Grade Content Standard 1: Properties and Principles of Matter and Energy GLE 2: Energy has a source, can be transferred, and can be transformed into various forms but is conserved between and within systems Concepts Measurable Learner
Objective Process
Standards Integrated
Skills DOK Instructional Strategies/Student
Activities/Resources Assessment
A Students will: describe how heat is transferred by conduction, convection, and radiation, and classify examples of each.
Skill
/Con
cept
Students will participate in an activity. The teacher will demonstrate friction (rubbing hands together), convection (heat leaving coffee cup as currents of steam and air rises), conduction (spoon in cup of hot water or coffee becomes warmer ), and radiation (sunlight).
Students will successfully summarize conduction, convection, and radiation in separate paragraphs. Scoring of paragraphs by rubric
classify common materials (examples—wood, foam, plastic, glass, aluminum foil, soil, air, water) as conductors or insulators of thermal energy.
Skill
/Con
cept
The teacher will lead a class discussion to teach the students to recognize common conductors and insulators of thermal energy.
Students will differentiate between common materials as being conductors or insulators of thermal energy.
Forms of energy have a
source, a means of transfer (work
and heat), and a
receiver Predict the differences in temperature over time on different colored (black and white) objects placed under the same heat source.
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Students will participate in an experiment or activity on solar heat.
Teacher observation
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Science Eighth Grade Content Standard 1: Properties and Principles of Matter and Energy GLE 2: Energy has a source, can be transferred, and can be transformed into various forms but is conserved between and within systems Concepts Measurable Learner
Objective Process
Standards Integrated
Skills DOK Instructional Strategies/Student
Activities/Resources Assessment
A Students will: Scope and Sequence—Forms of Energy: Electricity and Magnetism describe the interactions (examples—repel, attract) of like and unlike charges (examples—magnetic, static electric, electrical).
Skill
/Con
cept
Students will participate in an activity on north and south poles of magnets.
Teacher observation
diagram and identify a complete electric circuit by using a source (battery), means of transfer (wires), and receiver (resistance bulbs, motors, fans).
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Students will construct a complete circuit using a battery, wires, and light bulb.
Students will observe, describe, and successfully construct a complete circuit. Teacher observation
observe and describe the evidence of energy transfer in a closed series circuit.
1.10 3.5 4.7
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Students will construct several different circuits using battery source, wires, and light bulbs to observe and collect data.
Students will observe, describe, and successfully construct a closed series circuit. Teacher observation
Forms of energy have a
source, a means of transfer (work
and heat), and a
receiver
describe the effects of resistance (number of receivers), amount of voltage (number of energy sources), and kind of transfer materials on the current being transferred through a circuit (examples—brightness of light, speed of motor).
Sk
ill/C
once
pt
Students will participate in an activity to compare various brightness of light to the number of batteries used and the size of voltage source.
Students will predict which light will shine the brightest, make observations, and show cause/effect relationship between number of receivers and number of energy sources and brightness of light.
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Science Eighth Grade Content Standard 1: Properties and Principles of Matter and Energy GLE 2: Energy has a source, can be transferred, and can be transformed into various forms but is conserved between and within systems
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
A Students will: classify materials as conductors or insulators of electricity when placed within a circuit (examples—wood, pencil lead, plastic, glass, aluminum foil, lemon juice, air, water).
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Teacher observation
diagram and distinguish between complete series and parallel circuits.
Skill
/Con
cept
Students will label parts of a circuit on paper and on a 3-D model
Students will correctly label parts of a circuit and compare the similarities and differences between a series and parallel circuit.
Forms of energy have a source, a means of transfer
(work and heat), and a
receiver identify advantages and disadvantages of series and parallel circuits.
1.10 4.6 4.7
Ex
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hink
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Students will design/create a parallel and series circuit in groups of 3-4 students.
Students will analyze the advantages and disadvantages of parallel circuit and series circuit. Teacher observation
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Science Eighth Grade Content Standard 1: Properties and Principles of Matter and Energy GLE 2: Energy has a source, can be transferred, and can be transformed into various forms but is conserved between and within systems
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
A Students will:
Forms of energy have a
source, a means of transfer (work and
heat), and a receiver
Scope and Sequence—Physical and Chemical Properties and Changes of Matter recognize chemical energy is stored in chemical compounds (examples—energy stored in and released from food molecules, batteries, nitrogen, explosives, fire-works, organic fuels).
Rec
all
Students will participate in an activity on calorie content in food and chemical energy in batteries.
Teacher observation
B Mechanical
energy comes from the
motion (Kinetic energy and/or
relative position) (potential
energy) of an object
Scope and Sequence—Interactions between Energy, Force, and Motion distinguish between examples of kinetic and potential energy within a system.
Rec
all
Students will engage in a power point presentation and discuss the kinetic and potential energy within a system.
Students will recognize potential and kinetic energy and will participate in a power point presentation to compare/contrast the two.
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Science Eighth Grade Content Standard 1: Properties and Principles of Matter and Energy GLE 2: Energy has a source, can be transferred, and can be transformed into various forms but is conserved between and within systems
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
F Students will: Scope and Sequence—Energy Transformations identify the different energy transformations that occur between different systems (examples—chemical energy in battery converted to electricity in circuit converted to light and heat from a bulb).
Rec
all
Students will participate in an activity on energy transformations.
Teacher observation
recognize that, during an energy transformation, heat is often transferred from one object (system) to another because of a difference in temperature.
Skill
/Con
cept
Energy can change from one form to
another within
systems but the total amount
remains the same
recognize energy is not lost but conserved as it is transferred and transformed.
Sk
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once
pt
Students will actively engage in a discussion about law of conservation of energy (examples—pole vaulter, spring, roller coaster, skier).
Students will summarize the law of conservation of energy and successfully organize thoughts to prove that energy is neither created or destroyed.
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Science Eighth Grade Content Standard 1: Properties and Principles of Matter and Energy GLE 2: Energy has a source, can be transferred, and can be transformed into various forms but is conserved between and within systems
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
F Students will:
Energy can change from one form to
another within systems but the
total amount remains the
same
Scope and Sequence—Physical and Chemical Properties and Changes of Matter identify the evidence of different energy transformations (examples—explosion of light, heat, and sound, temperature change, electrical charge) that may occur as chemical energy is released during a chemical reaction.
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Students will participate in an activity on chemical changes: “Measuring the Heat Energy of a Chemical Change.”
Students will draw conclusions about how chemical energy is released during a chemical reaction, compare the heat conducting properties of water and paper by boiling water, study the law of conservation of energy, calculate heat produced by burning candles, and heat produced by burning nut, and compare the heat produced by equal masses of different types of nuts.
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Science Eighth Grade Content Standard 2: Properties and Principles of Matter and Energy GLE 1: The motion of an object is described by its change in position relative to another object or point Concepts Measurable Learner
Objective Process
Standards Integrated
Skills DOK Instructional Strategies/Student
Activities/Resources Assessment
A Students will: Scope and Sequence—Force, Motion, and Work describe the circular motion of a moving object as the result of a force acting toward the center.
Skill
/Con
cept
Illustrate how a wheel has circular motion.
Students will recognize that circular motion is a movement around a central position (examples—wheel or top).
classify different types of motion (examples—straight line, projectile, circular, vibrational).
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Students in groups will make observations about different types of motion and discuss how each is different.
Compare/contrast a car moving down the road (straight line), wheel or top (circular), and pendulum of a clock (vibrational).
given an object in motion, calculate its speed (distance/time).
Skill
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cept
Cooperative Learning: examples—I can drive a car 360 km in 5 hours—speed? Baseball travels 56 m in 2 seconds-speed? Ride bike 26 km per hour—distance in 2.5 hrs? Drive 100 km per hr. and it is 2880 km to CA. How many hrs?
By using formulas s=d/t, d=st, t-d/s, students will calculate speed
The motion of an object
is described
as a change in position, direction, and speed relative to
another object
(frame of reference)
interpret a line graph representing an object’s motion in terms of distance over time (speed) using metric units.
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conclusions from a line graph and compare two object’s motion.
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Science Eighth Grade Content Standard 2: Properties and Principles of Force and Motion GLE 1: The motion of an object is described by its change in position relative to another object or point
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
B Students will: Scope and Sequence—Interactions between Energy, Force, and Motion measure and analyze an object’s motion in terms of speed, velocity, and acceleration.
Skill
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cept
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The students will participate in the activity—“Hot Wheeling Physics”—students will calculate speed for each trial and graph the data.
Students will successfully complete “Hot Wheeling Physics” lab and create a graph using their data.
An object that is
accelerating is speeding up, slowing
down, or changing direction
calculate the acceleration of an object (final velocity-starting velocity/time).
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Students will participate in the activity—“Mouse Trap Car Project.”
Students will successfully design and create a mouse trap car. Scored by rubrics
C Scope and Sequence—Interactions between Energy, Force, and Motion compare the momentum of two objects in terms of mass and velocity (DO NOT assess calculations).
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Momentum depends on the
mass of the object and the velocity with
which it is traveling
explain that the total momentum remains constant within a system
Skill
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cept
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Science Eighth Grade Content Standard 2: Properties and Principles of Force and Motion GLE 2: Forces affect motion
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
A Students will: Scope and Sequence—Force, Motion, and Work identify and describe the types of forces acting on an object in motion, at rest, floating/sinking (examples—type of force, direction, amount of force in Newtons).
Skill
/Con
cept
Students will participate in an activity—“Float or Sink Density.”
Students will record mass of shape in grams, record volume in ml, record if shape sinks or floats and calculate density in glcm3.
Forces are
classified as either contact
forces (pushes, pulls, friction, buoyancy) or non-contact
forces (gravity, magnetism), that can be
described in terms of
direction and magnitude
compare the forces acting on an object by using a spring scale to measure them to the nearest Newton.
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B Scope and Sequence—Force, Motion, and Work recognize every object exerts a gravitational force of attraction on every other object.
Rec
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Students will compare/contrast the gravitational pull between two objects.
Students will be able to describe how objects travel through space. Teacher observation
Every object exerts a
gravitational force on
every other object
recognize an object’s weight is a measure of the gravitational force of a planet/moon acting on that object.
Skill
/Con
cept
The teacher will lead a discussion about the object’s weight being a measure of the gravitational force of a planet/moon acting on that object.
Students will be able to describe the cause/effect pattern of how the gravitational force on every object depends on the object’s weight.
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Science Eighth Grade Content Standard 2: Properties and Principles of Force and Motion GLE 2: Forces affect motion
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
B Students will:
Every object exerts a
gravitational force on every
other object
compare the amount of gravitational force acting between objects (which is dependent upon their masses and the distance between them).
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C Scope and Sequence between Energy, Force, and Motion recognize changing magnetic fields can produce electrical currents can produce magnetic forces.
Skill
/Con
cept
Magnetic forces are related to
electrical forces as different aspects of a
single electromagnetic
force
predict the effects of an electromagnetic force on the motion of objects (attract or repel).
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Science Eighth Grade Content Standard 2: Properties and Principles of Force and Motion GLE 2: Forces affect motion
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
D Students will: Scope and Sequence—Force, Motion, and Work compare the effects of balanced and unbalanced forces (including magnetic, gravity, friction, push or pull) on an object’s motion.
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The teacher will explain and the students will discuss Newton’s First Law of Motion and complete various labs: Wacky Washer, Tricky Treats; Second Law of Motion, Newton’s Race; and Third Law of Motion, Balloon Rally
Students will successfully complete and draw conclusions about Newton’s Laws and compare the effects of balanced and unbalanced forces.
explain that when forces (including magnetic, gravity, friction, push or pull) are balanced, objects are at rest or their motion remains constant.
Skill
/Con
cept
Students will participate in the activity “Newton’s First Law of Motion Lab: Physics Internet Scavenger Hunt.”
Students will successfully complete lab activity and online scavenger hunt.
Newton’s Laws of Motion
explain the interaction of
mass and forces, and are used to
predict changes in
motion explain that a change in motion is the result of an unbalanced force acting upon an object.
Sk
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Students will participate on the same activities as mentioned above on this page.
Students will successfully complete the labs.
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Science Eighth Grade Content Standard 2: Properties and Principles of Force and Motion GLE 2: Forces affect motion
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
D Students will:
Newton’s Laws of Motion explain the
interaction of mass and
forces, and are used to predict
changes in motion
explain how the acceleration of a moving object is affected by the amount of net force applied and the mass of an object.
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Students will successfully complete lab activity with lab group. See Lab Investigation
F Scope and Sequence—Force, Motion, and Work recognize examples of work being done on an object (force applied and distance moved in the direction of the applied force) with and without the use of simple machines.
Rec
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Skill
/Con
cept
Students will participate in work, energy, and power WebQuest.
Students will complete WebQuest, answer all questions correctly, and take the Quick Quizzes to check their understanding.
Simple machines
(levers, inclined planes, wheels
and axles, pulleys) affect
at he forces applied to an object and/or direction of
movement as work is done
Calculate the amount of work done when a force is applied to an object over a distance (W=F x d).
Skill
/Con
cept
Same as above Same as above
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Science Eighth Grade Content Standard 2: Properties and Principles of Force and Motion GLE 2: Forces affect motion
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
F Students will: explain how simple machines affect the amount of effort force, distance through which a force is applied, and/or direction of force while doing work.
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Students will construct a cartoon-type simple machines and use them to illustrate Newton’s Laws of Motion
Rubric for scoring of simple machine
recognize the amount of work output is never greater than the amount of work input, with or without the use of a simple machine.
Skill
/Con
cept
Simple machines (levers, inclined planes,
wheels and axles,
pulleys) affect the
forces applied to an object an/or direction of
movement as work is done
evaluate simple machine designs to determine which design requires the least amount of effort force and explain why.
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Science Eighth Grade Content Standard 5: Processes and Interactions of the Earth’s Systems (Geosphere, Atmosphere, and Hydrosphere) GLE 3: Human activity is dependent upon and affects Earth’s resources and systems
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
A Students will:
Earth’s materials are
limited natural resources
affected by human activity
Scope and Sequence—Energy Transformations distinguish between renewable (examples—geothermal, hydroelectric) and nonrenewable (example—fossil fuel) energy sources.
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Students will participate in the activity on Energy WebQuest
Rubric for Scoring
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Science Eighth Grade Content Standard 6: Composition and Structure of the Universe and the Motion of the Objects Within It GLE 1: The universe has observable properties and structure
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
A Students will: Scope and Sequence—Objects and their Motion in the Solar System classify celestial bodies in the solar system into categories: Sun, moon, planets, and other small bodies (examples—asteroids, comets, meteors) based on physical properties.
Rec
all
The teacher will lead discussion and the students will participate in a solar system Power Point.
Teacher observation and notes
compare and contrast the size, composition, atmosphere, and surface of the planets (inner vs. out) in our solar system and Earth’s moon.
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Students will choose various categories (size, shape, temperature) and create a graph of comparison and contrast to illustrate data that the students collected on the solar system.
Students will successfully research, categorize, and create a graph on size, composition, and temperature on the solar system.
The Earth, Sun and moon are part of a
larger system that includes other planets and smaller
celestial bodies
Identify the relative proximity of common celestial bodies
Skill
/Con
cept
22
Science Eighth Grade Content Standard 6: Composition and Structure of the Universe and the Motion of the Objects Within It GLE 1: The universe has observable properties and structure
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
B Students will: Scope and Sequence—Objects and Their Motion in the Solar System describe how the Earth’s placement in the solar system is favorable to sustain life (examples—distance from the Sun, temperature, atmosphere).
Skill
/Con
cept
The Earth has a
composition and location suitable to sustain life compare and contrast the
characteristics of Earth that support life with the characteristics of other planets that are considered favorable or unfavorable to life (examples—atmospheric gases, extremely high/low temperature).
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activity—“Making a Scale Model of the Solar System.” Research characteristics about given planets, write a report, and present report to the class.
Students will make a scale model of the solar system and present written and oral reports about each planet. Rubric for scoring
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Science Eighth Grade Content Standard 6: Composition and Structure of the Universe and the Motion of the Objects Within It GLE 1: The universe has observable properties and structure
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
C Students will: Scope and Sequence—Objects and Their Motion in the Solar System recognize stars are separated from one another by vast and different distances, which causes stars to appear smaller than the Sun.
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Use visual and mathematical aids to determine the approximate locations of planets in the solar system. Create a model in which the same scale is used to depict the distances between objects and calculate the time required for traveling a direct path to them.
Given a model to scale students will be able to fine the correct distance in miles and km.
Most of the information we know about the universe comes
from the electromagnetic
spectrum
compare the distance light travels from the Sun to Earth to the distance light travels from other star to Earth using light years.
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g Research and study various theories and interpret and evaluate information related to distances from our solar system to other points in our galaxy and the universe.
Based on the information found, students will be able to determine the amount of time it will take to travel to that place.
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Science Eighth Grade Content Standard 6: Composition and Structure of the Universe and the Motion of the Objects Within It GLE 2: Regular and predictable motions of objects in the universe can be described and explained as the result of gravitational forces
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
A Students will: Scope and Sequence—Objects and Their Motion in the Solar System relate the apparent east-to-west changes in the positions of the Sun, other stars, and planets in the sky over the course of a day to Earth’s counterclockwise rotation about its axis.
Rec
all
Students will participate in the following activities: “Evolution of Stars” and “Sun-Earth-Moon System” Power Points.
Teacher observation and students’ notetaking
describe the pattern that can be observed in the changes in number of hours of visible sunlight, and the time and location of sunrise and sunset, throughout the year.
Rec
all
The apparent position of the Sun and
other stars, as seen from
Earth, change in observable
patterns.
recognize, in the Northern Hemisphere, the Sun appears lower in the sky during the winter and higher in the sky during the summer.
Rec
all
25
Science Eighth Grade Content Standard 6: Composition and Structure of the Universe and the Motion of the Objects Within It GLE 2: Regular and predictable motions of objects in the universe can be described and explained as the result of gravitational force
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
A Students will: recognize, in winter, the Sun appears to rise in the Southeast and set in the Southwest, accounting for a relatively short day length, and, in summer, the Sun appears to rise in the Northeast and set in the Northwest, accounting for a relatively long day length.
Rec
all
Students will participate in the “Sun- Earth-Moon System” PowerPoint and the teacher will lead the discussion after the lesson
Teacher observation and student participation Peer observation
The apparent position of the Sun and
other stars, as seen from
Earth, change in observable
patterns
recognize the Sun is never directly overhead when observed from North America.
Rec
all
Same as above
26
Science Eighth Grade Content Standard 6: Composition and Structure of the Universe and the Motion of the Objects Within It GLE 2: Regular and predictable motions of objects in the universe can be described and explained as the result of gravitational forces Concepts Measurable Learner
Objective Process
Standards Integrated
Skills DOK Instructional Strategies/Student
Activities/Resources Assessment
B Students will: Scope and Sequence—Objects and Their Motion in the Solar System observe the change in time and location of moon rise, moon, set, and the moon’s appearance relative to time of day and month over several months, and note the pattern in this change.
Skill
/Con
cept
Students will observe the moon for ten days using a standard frame of reference.
Students will complete “Moon Observation” by drawing and describing what they see for ten days.
recognize the moon rises later each day due to its revolution around the Earth in a counterclockwise direction.
Rec
all
Skill
/Con
cept
Students will participate in “Earth’s Moon” and the teacher will lead a discussion on that class.
Students will read, review the PowerPoint. They will complete notes on moon position
recognize the Moon is in the sky for roughly 12 hours in a 24 hour period (example—if the Moon rises at about 6PM it will set at about 6AM).
Rec
all
Skill
/Con
cept
Same as above
Same as above
The apparent
position of the moon,
as seen from
Earth, and its actual position
relative to Earth
change in observable
patterns recognize that one half of the Moon is always facing the Sun, and, therefore, one half of the Mon is always lit.
Rec
all
Skill
/Con
cept
Same as above
Same as above
27
Science Eighth Grade Content Standard 6: Composition and Structure of the Universe and the Motion of the Objects Within It GLE 2: Regular and predictable motions of Objects in the universe can be described and explained as the result of gravitational forces
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
B Students will: relate the apparent change in thee moon’s position in the sky as it appears to move east-to-west over the course of a day to Earth’s counter-clockwise rotation about its axis.
Stra
tegi
c
Thin
king
Students will participate in the “Phases of the Moon” lab.
Students will participate and record results on “Phases of the Moon.” Students will complete questions regarding moon phases.
The apparent position of the moon, as seen
from Earth, and its actual position
relative to Earth change in observable
patterns
describe how the appearance of the moon that can be seen from Earth changes approximately every 28 days in an observable pattern (moon phases).
Stra
tegi
c
Thin
king
Students will participate in moon observations.
Students will compare the moon each night-- they observe it while keeping the same frame of reference.
C Scope and Sequence—Objects and Their Motion in the Solar System illustrate and explain a day as the time it takes a planet to make a full rotation about its axis.
Rec
all
Skill
/Con
cept
Students will participate in “Sun—Earth—Moon.” The students will write and give oral reports.
Students will participate in PowerPoint and give an oral report about a given topic.
diagram the path (orbital ellipse) the Earth travels as it revolves around the Sun.
Rec
all
Skill
/ C
once
pt
Same as above
Same as above
The regular and predictable motions
of the planet and moon relative to the Sun explain natural
phenomena on a planet, such as day,
month, year, shadow, moon
phases, eclipses, tides and seasons.
illustrate and explain a year as the time it takes a planet to revolve around the Sun.
Rec
all
Skill
/ C
once
pt
Same as above
Same as above
28
Science Eighth Grade Content Standard 6: Composition and Structure of the Universe and the Motion of the Objects Within It GLE 2: Regular and predictable motions of objects in the universe can be described and explained as the result of gravitational forces Concepts Measurable Learner
Objective Process
Standards Integrated
Skills DOK Instructional Strategies/Student
Activities/Resources Assessment
C Students will: explain the relationships between a planet’s length of year (period of revolution) and its position in the solar system.
Skill
/Con
cept
describe how the moon’s relative position changes as it revolves around the Earth.
Skill
/Con
cept
recognize the phases of the moon are due to the relative positions of the Moon with respect to the earth and Sun.
Rec
all
The regular and predictable motions of
a planet and moon relative to the Sun explain natural
phenomena on a
planet, such as
day, month, year,
shadow, moon
phases, eclipses, tides, and seasons
relate the axial tilt and orbital position of the Earth as it revolves around the Sun to the intensity of sunlight falling on different parts of the earth during different seasons.
St
rate
gic
Thin
king
29
Science Eighth Grade Content Standard 6: Composition and Structure of the Universe and the Motion of the Objects Within It GLE 2: Regular and predictable motions of objects in the universe can be described and explained as the result of gravitational forces
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
D Students will: Scope and Sequence—Objects and Their Motion in the Solar System describe how the Earth’s gravity pulls any object on or near the Earth toward it (including natural and artificial satellites).
Rec
all
Skill
/Con
cept
Students will participate in “Gravity and Motion” PowerPoint with class discussions (including small group discussions).
Student participation Teacher observation Peer observation
describe how the planets’ gravitational pull keeps satellites and moons in orbit around them.
Rec
all
Skill
/Con
cept
Same as above
Same as above
Gravity is a
force of attraction between
objects in the solar system that governs their motion
describe how the Sun’s gravitational pull holds the Earth and other planets in their orbits.
Rec
all
Skill
/Con
cept
Same as above
Same as above
30
Science Eighth Grade Content Standard 7: Scientific Inquiry GLE 1: Science understanding is developed through the use of science process skills, scientific knowledge, scientific investigation, reasoning, and critical thinking
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
A Students will: Scope and Sequence—All Units formulate testable questions and hypotheses
Skill
/Con
cept
Students in small groups will complete together with the teacher’s guidance the “Testable Question” and “Performance Event—Frank and Ethel” worksheets.
Students will complete the worksheets and participate in class question—answer session.
recognize the importance of the independent variable, dependent variables, control of constants, and multiple trials to the design of a valid experiment.
Skill
/Con
cept
Students will participate in “Ants in Yours Pants” worksheet.
Students will compare IV and DV and show the importance of constants, multiple trials, IV, and DV.
design and conduct a valid investigation
Stra
tegi
c Th
inki
ng Students will participate in a
science experiment “Bubbles, Bubbles Everywhere,” “Yummy, Yummy Scientific Method,” and “Come Fly with Us.”
Students will conduct an experiment and complete a 1) testable question, 2) IV and DV, 3) constants, 4) hypothesis, and 5) materials.
Scientific inquiry
includes the ability of
students to formulate a
testable question and explanation, and to select appropriate
investigative methods in
order to obtain
evidence relevant to
the explanation
evaluate the design of an experiment and make suggestions for reasonable improvements or extensions of an experiment.
Exte
nded
Thi
nkin
g Same as above
Same as above
31
Science Eighth Grade Content Standard 7: Scientific Inquiry GLE 1: Science understanding is developed through the use of science process skills, scientific knowledge, scientific investigation, reasoning, and critical thinking
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
A Students will: recognize that different kinds of questions suggest different kinds of scientific investigations (examples—some involve observing and describing objects, organisms or events; some involve experiments; some involve making observations in nature; some involve discovery of new objects and phenomena; some involve making models).
Skill
/Con
cept
St
rate
gic
Thin
king
Scientific inquiry
includes the ability of
students to formulate a
testable question and explanation, and to select appropriate
investigative methods in
order to obtain
evidence relevant to
the explanation
acknowledge there is no fixed procedure called “the scientific method,” but some investigations involve systematic observations, carefully collected observations, carefully collected and relevant evidence, logical reasoning, and imagination in developing hypotheses and other explanations.
Skill
/Con
cept
St
rate
gic
Thin
king
Teacher will instruct the students to choose an experiment (class as whole group or class divided into lab groups) and go through scientific method step-by-step. Each group will then prepare a presentation.
Each group will prepare a class presentation explaining their experiment by going through the steps in the scientific method. Peer observation
32
Science Eighth Grade Content Standard 7: Scientific Inquiry GLE 1: Science understanding is developed through the use of science process skills, scientific knowledge, scientific investigation, reasoning, and critical thinking
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
B Students will: Scope and Sequence—All Units make qualitative observations using the five senses.
Skill
/ C
once
pt
Students will participate in various lab experiments throughout the school year.
Scoring of lab Teacher observation Peer observation and possible scoring
determine the appropriate tools and techniques to collect data.
Skill
/ C
once
pt
Same as above Same as above
use a variety of tools and equipment to gather data (examples—microscopes, thermometers, analog and digital meters, computers, spring scales, balances, metric rulers, graduated cylinders, stopwatches).
Skill
/Con
cept
Same as above
Sa me as above
Scientific inquiry relies
upon gathering evidence
from qualitative
and quantitative observations measure length to the
nearest millimeter, mass to the nearest gram, volume to the nearest millimeter, force (weight) to the nearest millimeter, force (weight) to the nearest Newton, temperature to the nearest degree Celsius, time to the nearest second.
St
rate
gic
Thin
king
Students will participate in “Which Toilet Paper has the Greatest Strength When Wet.”
Teacher observation Peer observation
33
Science Eighth Grade Content Standard 7: Scientific Inquiry GLE 1: Science understanding is developed through the use of science process skills, scientific knowledge, scientific investigation, reasoning, and critical thinking
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
B Students will: compare amounts/measurements.
Skill
/Con
cept
St
rate
gic
Thin
king
Students will participate in lab experiments throughout the school year.
Rubric scoring Teacher observation Peer observation
judge whether measurements and computation of quantities are reasonable.
Skill
/Con
cept
St
rate
gic
Thin
king
Same as above
Same as above
Scientific inquiry relies
upon gathering evidence
from qualitative
and quantitative observations
calculate the range and average/mean of a set of data.
Skill
/Con
cept
St
rate
gic
Thin
king
Same as above
Same as above
34
Science Eighth Grade Content Standard 7: Scientific Inquiry GLE 1: Science understanding is developed through the use of science process skills, scientific knowledge, scientific investigation, reasoning, and critical thinking
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
C Students will: Scope and Sequence—All Units use quantitative and qualitative data as support for reasonable explanation (conclusions).
Skill
/Con
cept
St
rate
gic
Thin
king
Students will participate in lab experiments throughout the year.
Rubric scoring Teacher observation Peer observation
use data as support for observed patterns and relationships, and to make predictions to be tested.
Skill
/Con
cept
St
rate
gic
Thin
king
Same as above
Same as above
Evidence is used to
formulate explanations
recognize the possible effects of errors in observations, measurements, and calculations on the formulation of explanations (conclusions).
Skill
/Con
cept
St
rate
gic
Thin
king
Same as above
Same as above
35
Science Eighth Grade Content Standard 7: Scientific Inquiry GLE 1: Science understanding is developed through the use of science process skills, scientific knowledge, scientific investigation, reasoning, and critical thinking
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
D Students will: Scope and Sequence—All Units evaluate the reasonableness of an explanation (conclusion).
Stra
tegi
c Th
inki
ng
Scientific inquiry includes
evaluation of explanations (hypotheses,
laws, theories) in light of scientific principles
(understandings)
analyze whether evidence (data) and scientific principles support proposed explanations (hypotheses, laws, theories).
Stra
tegi
c Th
inki
ng
Exte
nded
Th
inki
ng
Students will participate in the “Nature of Science” PowerPoint.
Class discussion with teacher guidance Student participation
E
The nature of science relies
upon communication of results and justification of explanations
Scope and Sequence—All Units 1) communicate the procedures and results of investigations and explanations through a) oral presentations b) drawings and maps c) data tables (allowing for the recording and analysis of data relevant to the experiment, such as independent and dependent variables, multiple trials, beginning and ending times or temperatures, derived quantities) d) graphs (bar, single line, pictograph) e) equations and writings
Stra
tegi
c Th
inki
ng
Exte
nded
Thi
nkin
g
The teacher will repeat teaching in writing labs and class activities in scientific investigation format.
All labs and class activities are to be written in the scientific investigation format. Scoring rubric
36
Science Eighth Grade Content Standard 8: Impact of Science, Technology and Human Activity GLE 1: The nature of technology can advance, and is advanced by, science as it seeks to apply scientific knowledge in ways that meet human needs
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
A Students will:
Designed objects are used
to do things better or more
easily and to do some things
that could not otherwise be done at all
Scope and Sequence—All Units explain how technological improvements, such as those developed for use in space exploration, the military, or medicine, have led to the invention of new products that may improve lives here on Earth (examples—new materials, freeze-dried foods, infrared goggles, Velcro, satellite imagery robotics, lasers).
Rec
all
Skill
/Con
cept
Students will evaluate how technology has improved the world and made it more easily to do something not otherwise done at all (example—discuss how information received from space probes has either confirmed or modified scientific theories concerning conditions on other planets).
Students will give oral reports with visual aids to the class. Scoring rubric
37
Science Eighth Grade Content Standard 8: Impact of Science, Technology and Human Activity GLE 1: The nature of technology can advance, and is advanced by, science as it seeks to apply scientific knowledge in ways that meet human needs
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
B Students will:
Advances in technology
often result in improved data collection and an increase in
scientific information
Scope and Sequence—All Units identify the link between technological developments and the scientific discoveries made possible through their development (examples—Hubble telescope and stellar evolution, composition and structure of the universe; the electron microscope and cell organelles; sonar and the composition of the Earth; manned and unmanned space missions and space exploration, Doppler radar and weather conditions; MRI and Cat-scans and brain activity).
Skill
/Con
cept
Students will identify common products that have been developed as a result of research. Students will identify and explain ways society has benefited from the technologies developed through science exploration.
Students will identify several products that originated from the NASA programs and relate how the products have improved their quality of life.
38
Science Eighth Grade Content Standard 8: Impact of Science, Technology and Human Activity GLE 1: The nature of technology can advance, and is advanced by, science as it seeks to apply scientific knowledge in ways that meet human needs
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
C Students will:
Technological solutions to
problems often have drawbacks
as well as benefits
Scope and Sequence—All Units describe how technological solutions to problems (examples—storm water runoff, fiber optics, windmills, efficient car design, electronic trains without conductors, sonar, robotics, Hubble telescope) can have both benefits and drawbacks (examples—design constraints, unintended consequences, risks) (Assess Locally).
Skill
/Con
cept
The teacher will lead the discussion as to how information and technology has modified solutions but also have negative consequences.
Students will compare/contrast technological solutions and their consequences (positive and negative) in society.
39
Science Eighth Grade Content Standard 8: Impact of Science, Technology and Human Activity GLE 2: Historical and cultural perspectives of scientific explanations help to improve understanding of the nature of science and how science knowledge and technology evolve over time
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
A Students will:
People of different gender
and ethnicity have
contributed to scientific
discoveries and the invention of technological innovations
Scope and Sequence—All Units describe how the contributions of scientists and inventors, representing different cultures, races, and gender, have contributed to science, technology and human activity (examples—George Washington Carver, Thomas Edison, Thomas Jefferson, Galileo, Albert Einstein, Mae Jemison, Edwin Hubble, Charles Darwin, Jonas Salk, Louis Pasteur, Jane Goodall, Tom Akers, John Wesley Powell, Rachel Carson) (Assess Locally).
Rec
all
Students will research a given scientist or inventor. This activity can be done individually or in small groups.
Students will prepare a paper and oral presentation Scoring rubric
40
Science Eighth Grade Content Standard 8: Impact of Science, Technology and Human Activity GLE 2: Historical and cultural perspectives of scientific explanations help to improve understanding of the nature of science and how science knowledge and technology evolve over time
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
B Students will: Scope and Sequence—All Units recognize the difficulty science innovators experience as they attempt to break through accepted ideas (hypotheses, laws, theories) of their time to reach conclusions that may lead to changes in those ideas and serve to advance scientific understanding (examples—Darwin, Copernicus, Newton).
Skill
/Con
cept
Students will research a given scientist and appreciate what they went through to gain knowledge.
Students will present an oral presentation and write a paper on a given scientist. Scoring by rubric
Scientific theories are developed
based on the body of
knowledge that exists at
any particular time and must be
rigorously questioned
and tested for validity
recognize explanations have changed over time as a result of new evidence.
Rec
all
Skill
/Con
cept
41
Science Eighth Grade Content Standard 8: Impact of Science, Technology and Human Activity GLE 3: Science and technology affect, and are affected by, society
Concepts Measurable Learner Objective
Process Standards
Integrated Skills
DOK Instructional Strategies/Student Activities/Resources
Assessment
B Students will: Scope and Sequence—All Units describe ways in which science and society influence one another (examples—scientific knowledge and the procedures used by scientists influence the way many individuals in society think about themselves, others, and the environment; societal challenges often inspire questions for scientific research; social priorities often influence research priorities through the availability of funding for research).
Skill
/Con
cept
See rationale
Social, political,
economic, ethical and
environmental factors
strongly influence, and are influenced
by, the direction of progress of science and technology.
identify and evaluate the physical, social, economic, and/or environmental problems that may be overcome using science and technology (examples—the need for alternative fuels, human travel in space, AIDS).
Skill
/Con
cept
See rationale