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Site: Learnbps

Class: BPSS (SCI) Science Standards (S-SCI)

Glossary: 6th Grade Physical Science

SCI-06.2.01

Science Targeted Benchmarks

Standard 2: Science Inquiry

Scientific Method

SCI-06.2.01 Explain and use the steps of the scientific investigation (e.g., hypothesis, observation, data collect, data interpretation, communication of results, replicable).

Student Learning Targets:

Knowledge Targets

I can identify the steps of the scientific method in order.
I can demonstrate knowledge of the steps of the scientific method.

Reasoning Targets

I can apply the scientific method in solving real-world problems with unclear or multiple solutions.

Skills (Performance) Targets

I can conduct a scientific experiment following the scientific method.

Product Targets

I can write a testable if/then/because hypothesis.
I can use data and evidence to write a conclusion accepting or rejecting a hypothesis.

Proficiency Scale

Score		Description	Sample Activity
4.0	In addition to Score 3.0, the student demonstrates in-depth inferences and applications regarding more complex material that go beyond end of instruction expectations. The student: is able to design a valid experiment using the scientific method.		Sample: The experiment can be repeated based on accurate information.
	3.5	In addition to Score 3.0 performance, the student demonstrates in-depth inferences and applications regarding the more complex content with partial success. creates a scientific experiment following the scientific method and writes a complete lab report. *Student does not conduct the experiment.
3.0	The student: is able to identify and apply the steps of the scientific method The student exhibits no major errors or omissions.		Sample: Generate data tables using variables. Analyzes and uses collected data in lab conclusion.
	2.5	The student demonstrates no major errors or omissions regarding the simpler details and processes (Score 2.0 content) and partial knowledge of the more complex ideas and processes (Score 3.0 content).
2.0	There are no major errors or omissions regarding the simpler details and processes as the student: Key Vocab: Hypothesis, Independent Variable, Dependent Variable, Evidence, Data, Control, Quantitative, Qualitative, Conclusion, Graph, Scientific Method and Procedure However, the student exhibits major errors or omissions regarding the more complex ideas and processes.
	1.5	The student demonstrates partial knowledge of the simpler details and processes (Score 2.0 content) but exhibits major errors or omissions regarding the more complex ideas and procedures (Score 3.0 content).
1.0	With help, the student demonstrates a partial understanding of some of the simpler details and processes (Score 2.0 content) and some of the more complex ideas and processes (Score 3.0 content).
	0.5	With help, the student demonstrates a partial understanding of some of the simpler details and processes (Score 2.0 content) but not the more complex ideas and processes (Score 3.0 content).

Resources

Websites

Click Here for additional resources for the Scientific Method

Vocabulary

Scientific Method
Hypothesis
Observation
Data Collection / Data Interpretation
Independent / Dependent Variable

ScienceInquiryProScaleGr06.docx

SCI-06.2.04

Science Targeted Benchmarks

Standard 2: Science Inquiry

Measurement

SCI-06.2.04 Use appropriate tools and techniques to gather and analyze data.

Student Learning Targets:

Knowledge Targets

I can determine what tools are most appropriate for gathering data (e.g., ruler, beaker, scales, visual observations, or tables).

Reasoning Targets

I can select the appropriate measuring tool for an investigation
I can

Skills (Performance) Targets

I can convert measurements between units in the metric system.

Product Targets

I can
I can

Proficiency Scale

Score		Description	Sample Activity
4.0	In addition to Score 3.0, the student demonstrates in-depth inferences and applications regarding more complex material that go beyond end of instruction expectations.
	3.5	In addition to Score 3.0 performance, the student demonstrates in-depth inferences and applications regarding the more complex content with partial success.
3.0	The student: is able to use proper tool to measure accurately. labels measurements with the correct unit. performs simple one step metric conversions (i.e., meters to kilometers). The student exhibits no major errors or omissions.		Sample: Using the correct units according to size of object
	2.5	The student demonstrates no major errors or omissions regarding the simpler details and processes (Score 2.0 content) and partial knowledge of the more complex ideas and processes (Score 3.0 content).
2.0	There are no major errors or omissions regarding the simpler details and processes as the student: selects proper tool for gathering data identifies appropriate units for measurement (Mass, Length, Volume) Key Vocabulary: Graduated Cylinder, Triple Beam Balance, Beaker, Ruler, Digital Scale, Kilometer, Meter, Gram, Liter, Centimeter, Millimeter However, the student exhibits major errors or omissions regarding the more complex ideas and processes.		Sample: ruler, beaker, visual observations, tables, etc.
	1.5	The student demonstrates partial knowledge of the simpler details and processes (Score 2.0 content) but exhibits major errors or omissions regarding the more complex ideas and procedures (Score 3.0 content).
1.0	With help, the student demonstrates a partial understanding of some of the simpler details and processes (Score 2.0 content) and some of the more complex ideas and processes (Score 3.0 content).
	0.5	With help, the student demonstrates a partial understanding of some of the simpler details and processes (Score 2.0 content) but not the more complex ideas and processes (Score 3.0 content).

Resources

Websites

Click Here for an additional resource for measurement
Click Here for an additional resource for Triple Beam Balances

Vocabulary

Length, Volume, Mass
Ruler (Meter, Centimeter, Millimeter)
Beaker/ Graduated Cylinder (Liter, Milliliter)
Triple Beam Balance (Kilogram, Grams)

SCI-MS.PS1

DCI Physical Science PS1

Matter and Its Interactions

Performance Expectations

PS1 help students to formulate an answer to the question , “ How do atomic and molecular interactions explain the properties of matter that we see and feel? ” by building understanding of what occurs at the atomic and molecular scale.

In middle school , the PS1 Disciplinary Core Idea is broken down into two sub-ideas: the structure and properties of matter and chemical reactions. By the end of middle school , students will be able to apply understanding that pure substances have characteristic physical and chemical properties and are made from a single type of atom or molecule. They will be able to provide molecular level accounts to explain states of matters and changes between states , that chemical reactions involve regrouping of atoms to form new substances , and that atoms rearrange during chemical reactions. Students are also able to apply an understanding of the design and the process of optimization in engineering to chemical reaction systems.

In the PS1 performance expectations, students are expected to demonstrate proficiency in developing and using models, analyzing and interpreting data, designing solutions, and obtaining, evaluating, and communicating information. Students use these scientific and engineering practices to demonstrate understanding of the disciplinary core ideas.

Calculation Method for DCI

Disciplinary Core Ideas are larger groups of related Performance Expectations. So the Disciplinary Core Idea Grade is a calculation of all the related Performance Expectations. So click on the Performance Expectation name below each Disciplinary Core Idea to access the learning targets and proficiency scales for each Disciplinary Core Idea's related Performance Expectations.

SCI-MS.PS1.01

6th Grade (SCI) Physical Science Standards
[PS1] Matter and Its Interaction

SCI-MS.PS1.01 Develop models to describe the atomic composition of simple molecules and extended structures.

Clarification Statement: Emphasis is on developing models of molecules that vary in complexity. Examples of simple molecules could include ammonia and methanol. Examples of extended structures could include sodium chloride or diamonds. Examples of molecular-level models could include drawings, 3D ball and stick structures, or computer representations showing different molecules with different types of atoms.
Disciplinary Core Ideas
PS1.A: Structure and Properties of Matter Substances are made from different types of atoms, which combine with one another in various ways. Atoms form molecules that range in size from two to thousands of atoms. Solids may be formed from molecules, or they may be extended structures with repeating subunits (e.g., crystals).

Student Learning Targets:

Knowledge Targets

I can recognize names and symbols of common elements.
I can use the periodic table to compare elements

Reasoning Targets

I can

Skills (Performance) Targets

I can count the numbers and types of atoms in a molecular formula.
I can count the numbers and types of atoms in a structural formula.
I can compare elements characteristics based on their families/groups

Product Targets

I can construct a model of an atom
I can construct or deconstruct molecular formula (molecules/compounds).

Proficiency Scale

The Student can ...

1 Beginning

... with help, demonstrate a partial understanding of some of the simpler details and processes (Score 2.0 content) and some of the more complex ideas and processes (Score 3.0 content).

descriptors

2 Developing

... demonstrate no major errors or omissions regarding the simpler details and processes but exhibits major errors or omissions regarding the more complex ideas and processes (Score 3.0 content).

recognizes or recalls specific terminology, such as:
- structural & molecular formula
- atom, element, molecule, compound
- proton, neutron, electron, nucleus
- chemical bond
- subscript
performs basic processes, such as:
- counts numbers and types of atoms in a molecular formula

3 Proficient

“The Standard.”
... demonstrate no major errors or omissions regarding any of the information and processes that were end of instruction expectations.

Constructs models of molecules from a molecular formula
Construct models of a network solid (salt, diamond, etc.)
Constructs model of an atom including subatomic particles

4 Advanced

... demonstrate in-depth inferences and applications regarding more complex material that go beyond end of instruction expectations.

descriptors

Resources

Vocabulary

Atoms
Molecules
Elements
Compounds

Subatomic Particles:
Nucleus
Protons
Neutrons
Electrons

Websites

For additional resource on Period Table
interactive periodic table

MS-PS11ProScale.docx

SCI-MS.PS1.01.at

6th Grade (SCI) Physical Science Standards
[PS1] Matter and Its Interaction (Atomic Structure)

SCI-MS.PS1.01.at Develop Models to describe the atomic composition of simple molecules and extended structures

Student Learning Targets:

Knowledge Targets

I can

Reasoning Targets

I can

Skills (Performance) Targets

I can

Product Targets

I can

Proficiency Scale

The Student can ...

1 Beginning

... with help, demonstrate a partial understanding of some of the simpler details and processes (Score 2.0 content) and some of the more complex ideas and processes (Score 3.0 content).

descriptors

2 Developing

... demonstrate no major errors or omissions regarding the simpler details and processes but exhibits major errors or omissions regarding the more complex ideas and processes (Score 3.0 content).

Key vocabulary: Proton, Atoms, Neutron, Electron, Nucleus, Shell and Element
Additional Vocabulary: Matter, Chemistry, Pure substance, mass, weight, volume

3 Proficient

“The Standard.”
... demonstrate no major errors or omissions regarding any of the information and processes that were end of instruction expectations.

construct a model of an atom
understand how atoms are arranged
have a basic understanding of the Big Bang

SampleAcitivty:
- builds a model out of gumdrops that represents an atomic element.
- draw an atom of an element (hydrogen)

4 Advanced

... demonstrate in-depth inferences and applications regarding more complex material that go beyond end of instruction expectations.

descriptors

Resources

Vocabulary

Proton
Atoms
Neutron
Electron
Nucleus
Shell and Element

Matter
Chemistry
Pure substance
mass
weight
volume

Websites

Title of website with a URL to open in a new window

SCI-MS.PS1.01.mc

6th Grade (SCI) Physical Science Standards
[PS1] Matter and Its Interaction (Molecules and Compounds)

SCI-MS.PS1.01.mc Develop Models to describe the atomic composition of simple molecules and extended structures.

Student Learning Targets:

Knowledge Targets

I can

Reasoning Targets

I can

Skills (Performance) Targets

I can

Product Targets

I can

Proficiency Scale

The Student can ...

1 Beginning

... with help, demonstrate a partial understanding of some of the simpler details and processes (Score 2.0 content) and some of the more complex ideas and processes (Score 3.0 content).

descriptors

2 Developing

... demonstrate no major errors or omissions regarding the simpler details and processes but exhibits major errors or omissions regarding the more complex ideas and processes (Score 3.0 content).

Key Vocabulary: Coefficient, Subscript, Molecules, Compounds, Element, Solutions and Mixtures

3 Proficient

“The Standard.”
... demonstrate no major errors or omissions regarding any of the information and processes that were end of instruction expectations.

construct or deconstruct molecular formulas (molecules/compounds)

Sample Activity:
Student designs a compound based on the chemical formula

4 Advanced

... demonstrate in-depth inferences and applications regarding more complex material that go beyond end of instruction expectations.

descriptors

Resources

Vocabulary

Coefficient
Subscript
Molecules

Compounds
Element
Solutions and Mixture

Websites

Title of website with a URL to open in a new window

SCI-MS.PS1.01.pt

6th Grade (SCI) Physical Science Standards
[PS1] Matter and Its Interaction (Periodic Table)

SCI-MS.PS1.01.pt Develop Models to describe the atomic composition of simple molecules and extended structures.

Student Learning Targets:

Knowledge Targets

I can

Reasoning Targets

I can

Skills (Performance) Targets

I can

Product Targets

I can

Proficiency Scale

The Student can ...

1 Beginning

... with help, demonstrate a partial understanding of some of the simpler details and processes (Score 2.0 content) and some of the more complex ideas and processes (Score 3.0 content).

descriptors

2 Developing

... demonstrate no major errors or omissions regarding the simpler details and processes but exhibits major errors or omissions regarding the more complex ideas and processes (Score 3.0 content).

Key Vocabulary: Atomic number, Atomic Mass, Atomic Symbol, Family, Group

3 Proficient

“The Standard.”
... demonstrate no major errors or omissions regarding any of the information and processes that were end of instruction expectations.

use the periodic table to compare elements
compare elements characteristics based on their families/groups

Sample Activity:
Identify an element by its characteristics. Including atomic number, atomic mass, atomic symbol, etc.

4 Advanced

... demonstrate in-depth inferences and applications regarding more complex material that go beyond end of instruction expectations.

descriptors

Resources

Vocabulary

Family
Group

Atomic Number
Atomic Mass
Atomic Symbol

Websites

Title of website with a URL to open in a new window

SCI-MS.PS1.04

6th Grade (SCI) Physical Science Standards
[PS1] Matter and Its Interaction

SCI-MS.PS1.04 Develop a model that predicts and describes changes in particle motion, temperature, and state of a pure substance when thermal energy is added or removed.

Clarification Statement: Emphasis is on qualitative molecular-level models of solids, liquids, and gases to show that adding or removing thermal energy increases or decreases kinetic energy of the particles until a change of state occurs. Examples of models could include drawings and diagrams. Examples of particles could include molecules or inert atoms. Examples of pure substances could include water, carbon dioxide, and helium.
Disciplinary Core Ideas
PS1.A: Structure and Properties of Matter The changes of state that occur with variations in temperature or pressure can be described and predicted using these models of matter.
PS3.A: Definitions of Energy Heat refers to the energy transferred due to the temperature difference between two objects. The temperature of a system is proportional to the average internal kinetic energy and potential energy per atom or molecule. The details of that relationship depend on the type of atom or molecule and the interactions among the atoms in the material.

Student Learning Targets:

Knowledge Targets

I can identify and define each state of matter.
I can identify the phase changes.

Reasoning Targets

I can infer the temperature at which phase changes occur.

Skills (Performance) Targets

I can measure the temperature of a substance.

Product Targets

I can create a phase change model using lab data.
I can identify the states of matter and phase changes on a phase change graph.

Proficiency Scale

The Student can ...

1 Beginning

... with help, demonstrate a partial understanding of some of the simpler details and processes (Score 2.0 content) and some of the more complex ideas and processes (Score 3.0 content).

descriptors

2 Developing

... demonstrate no major errors or omissions regarding the simpler details and processes but exhibits major errors or omissions regarding the more complex ideas and processes (Score 3.0 content).

Key Vocabulary: Melting Point, Boiling Point, Freezing, Condensation, Evaporation, Sublimation, Deposition

3 Proficient

“The Standard.”
... demonstrate no major errors or omissions regarding any of the information and processes that were end of instruction expectations.

identify and define phase change
explain the behavior of the particles at each phase of matter

Sample Activity:
The student draws atom particle arrangements based on the phases of matter.
The students identify phase changes on a graph

4 Advanced

... demonstrate in-depth inferences and applications regarding more complex material that go beyond end of instruction expectations.

descriptors

Resources

Vocabulary

Melting point
Boiling point
Freezing

Condensation
Evaporation
Sublimation
Deposition

Websites

For additional resource activities
States of Matter

MS-PS1.4.docx

SCI-MS.PS2

DCI Physical Science PS2

Motion and Stability: Forces and Interactions

Performance Expectations

PS2 Forces and Interactions focuses on helping students understand ideas related to why some objects will keep moving, why objects fall to the ground and why some materials are attracted to each other while others are not. Students answer the question , “How can one describe physical interactions between objects and within systems of objects ?”

At the middle school level, the PS 2 Disciplinary Core Idea is broken down into two sub-ideas: Forces and Motion and Types of interactions. By the end of middle school , students will be able to apply Newton’s Third Law of Motion to relate forces to explain the motion of objects. Students also apply ideas about gravitational, electrical, and magnetic forces to explain a variety of phenomena including beginning ideas about why some materials attract each other while others repel. In particular, students will develop understanding that gravitational interactions are always attractive but that electrical and magnetic forces can be both attractive and negative. Students also develop ideas that objects can exert forces on each other even though the objects are not in contact, through fields . Students are also able to apply an engineering practice and concept to solve a problem caused when objects collide. The crosscutting concepts of cause and effect ; system and system models ; stability and change ; and the influence of science, engineering, and technology on society and the natural world serve as organizing concepts for these disciplinary core ideas.

In the PS2 performance expectations, students are expected to demonstrate proficiency in asking questions, planning and carrying out investigations, and designing solutions, and engaging in argument ; and to use these practices to demonstrate understanding of the core ideas.

Calculation Method for DCI

SCI-MS.PS2.01

6th Grade (SCI) Physical Science Standards
[PS2] Motion and Stability: Forces and Interactions

SCI-MS.PS2.01 Apply Newton's Third Law to design a solution to a problem involving the motion of two colliding objects.

Clarification Statement: Emphasis is on balanced (Newton’s First Law) and unbalanced forces in a system, qualitative comparisons of forces, mass and changes in motion (Newton’s Second Law), frame of reference, and specification of units.
Disciplinary Core Ideas
PS2.A: Forces and Motion The motion of an object is determined by the sum of the forces acting on it; if the total force on the object is not zero, its motion will change. The greater the mass of the object, the greater the force needed to achieve the same change in motion. For any given object, a larger force causes a larger change in motion.

Student Learning Targets:

Knowledge Targets

I can describe Newton's Third Law of Motion.
I can identify action and reaction force pairs.

Reasoning Targets

I can

Skills (Performance) Targets

I can find the momentum of an object given its mass and velocity.

Product Targets

I can construct different types of models to represent different systems and their interactions.

Proficiency Scale

The Student can ...

1 Beginning

... with help, demonstrate a partial understanding of some of the simpler details and processes (Score 2.0 content) and some of the more complex ideas and processes (Score 3.0 content).

descriptors

2 Developing

... demonstrate no major errors or omissions regarding the simpler details and processes but exhibits major errors or omissions regarding the more complex ideas and processes (Score 3.0 content).

Key Vocabulary: Newton's Third Law; input/output, energy, motion, matter, force, momentum, inertia, action, reaction, mass, velocity
can calculate momentum of an object given its mass and velocity

3 Proficient

“The Standard.”
... demonstrate no major errors or omissions regarding any of the information and processes that were end of instruction expectations.

apply Newton's Third Law of Motion
identify and explain for every action there is an opposite and equal reaction. (Third Law)

Sample Activity:
Rube Goldberg Machine
Roller Coaster Lab
Connect each law to a situation

4 Advanced

... demonstrate in-depth inferences and applications regarding more complex material that go beyond end of instruction expectations.

descriptors

Resources

Vocabulary

Newton's 3rd Law of Motion
energy
motion
matter

force
inertia
Action/ Reaction Forces
Momentum, Mass, Velocity

Websites

Title of website with a URL to open in a new window

Proficiency Scale on MS-PS2-1.docx