2015 - 2016
Parts of the Curriculum Map
The curriculum map defines the curriculum for each course taught in Volusia County. They have been created by teachers from Volusia County Schools on curriculum mapping and assessment committees. The following list describes the various parts of each curriculum map:
· Units: the broadest organizational structure used to group content and concepts within the curriculum map created by teacher committees.
· Topics: a grouping of standards and skills that form a subset of a unit created by teacher committees.
· Learning Targets and Skills: the content knowledge, processes, and skills that will ensure successful mastery of the NGSSS as unpacked by teacher committees according to appropriate cognitive complexities.
· Standards: the Next Generation Sunshine State Standards (NGSSS) required by course descriptions posted on CPALMS by FLDOE.
· Pacing: recommended time frames created by teacher committees and teacher survey data within which the course should be taught in preparation for the EOC.
· Vocabulary: the content-specific vocabulary or phrases both teachers and students should be familiar with and use during instruction and assessment.
Some maps may also contain other helpful information, such as:
· Resources: a listing of available, high quality and appropriate materials (strategies, lessons, textbooks, videos and other media sources) that are aligned to the standards. These resources may be found at www.edmodo.com within the group folders. Contact the District Science Office for assistance in joining groups.
· Teacher Hints: a listing of considerations when planning instruction, including guidelines to content that is inside and outside the realm of the course descriptions on CPALMS in terms of state assessments.
· Sample FOCUS Questions: sample questions aligned to the standards and in accordance with EOC style, rigor, and complexity guidelines; they do NOT represent all the content that should be taught, but merely a sampling of it.
· Labs: The NSTA and the District Science Office recommend that all students experience and participate in at least one hands-on, inquiry-based, lab or activity per week where students are collecting data and drawing conclusions. The district also requires that at least one (1) lab per grading period should have a written lab report with analysis and conclusion.
· Common Labs (CL): Each grade level has one common Lab (CL) for each nine week period. These common labs have been designed by teachers to allow common science experiences that align to the curriculum across the district.
· Volusia Literacy Tasks (VLT): Each grade level has one Volusia Literacy task (VLT) for each nine week period. These literacy experiences have been designed by teachers to provide common literacy activities that align to the curriculum across the district.
· DIAS: (District Interim Assessments: Science) are content-specific tests developed by the district and teacher committees to assist in student progress monitoring. The goal is to prepare students for the 8th grade FCAT 2.0 or Biology EOC using rigorous items developed using the FLDOE Item Specifications Documents.
The opening pages of the map include information about the FCAT 2.0 content breakdown, the Volusia County Science 5E Instructional Model, cognitive complexity information for developing various levels of questions for classroom use, and the Florida ELA and Math Standard that may be in the course descriptions.
Florida FCAT 2.0 Science Information
Content Breakdown by BenchmarkNature of Science / Earth and Space Science / Physical Science / Life Science
19% of FCAT Science / 27% of FCAT Science / 27% of FCAT Science / 27% of FCAT Science
8.N.1.1
6.N.1.1
6.N.1.3
7.N.1.1
7.N.1.3
7.N.1.4
8.N.1.3
8.N.1.4
7.N.1.2
6.N.1.2
6.N.1.4
8.N.1.2 / 7.N.1.5
7.N.3.2
8.N.1.5
E.5.10
6.N.2.2
7.N.1.6
7.N.1.7
7.N.2.1
8.N.1.6
7.N.3.1
6.N3.1
8.N.3.2 / 8.E.5.3
8.E.5.1
8.E.5.2
8.E.5.5
8.E.5.6
8.E.5.7
8.E.5.4
8.3.5.8
8.E.5.9
7.E.6.2
6.E.6.1
6.E.6.2
7.E.6.6 / 7.E.6.4
7.E.6.3
7.E.6.5
7.E.6.1
7.E.6.7
6.E.7.4
6.E.7.2
6.E.7.3
6.E.7.6
6.E.7.9
6.E.7.5
6.E.7.1 / 8.P.8.4
8.P.8.3
8.P.8.5
8.P.8.1
8.P.8.6
8.P.8.7
8.P.8.8
8.P.8.9
8.P.9.2
8.P.9.1
8.P.8.3
7.P.10.1
8.E.5.11 / 7.P.10.3
7.P.10.2
7.P.11.2
6.P.11.1
7.P.11.3
7.P.11.4
7.P.11.1
6.P.13.1
6.P.13.2
8.P.8.2
8.P.13.3
6.P.12.1 / 6.L.14.1
6.L.14.2
6.L.14.3
6.L.14.4
6.L.14.5
6.L.14.6
6.L.15.1
7.L.15.2
7.L.15.1
7.L.15.3
7.L.16.1
7.L.16.2
7.L.16.3 / 7.L.17.2
7.L.17.1
7.L.17.3
8.L.18.4
8.L.18.1
8.L.18.2
8.L.18.3
Item Cognitive Complexity
Low / Moderate / High
10-20% / 60-80% / 10-20%
Duration and Length
Sessions / Total Time / Total Items
2 / 160 minutes / 60-66
Recommendations for success on the FCAT 2.0 Science:
1. Use frequent formative assessment of measurement topics.
2. Students should have access to and use FCAT Explorer and Florida Achieves!
3. Instruction should be at the same level of rigor as the learning targets in the curriculum map.
Volusia County Science 5E Instructional Model
Description / ImplementationEngage / Learners engage with an activity that captures their attention, stimulates their thinking, and helps them access prior knowledge. A successful engagement activity will reveal existing misconceptions to the teacher and leave the learner wanting to know more about how the problem or issue relates to his/her own world. (e.g. ISN-preview, Probe, Teacher Demonstration…) / The diagram below shows how the elements of the 5E model are interrelated. Although the 5E model can be used in linear order (engage, explore, explain, elaborate and evaluate), the model is most effective when it is used as a cycle of learning.
Each lesson begins with an engagement activity, but evaluation occurs throughout the learning cycle. Teachers should adjust their instruction based on the outcome of the evaluation. In addition, teachers are encouraged to differentiate at each state to meet the needs of individual students.
Explore / Learners explore common, hands-on experiences that help them begin constructing concepts and developing skills related to the learning target. The learner will gather, organize, interpret, analyze and evaluate data. (e.g. investigations, labs…)
Explain / Learners explain through analysis of their exploration so that their understanding is clarified and modified with reflective activities. Learners use science terminology to connect their explanations to the experiences they had in the engage and explore phases. (e.g. Lecture, ISN-notes, Research, Close-reading, reading to learn, videos, websites…)
Elaborate / Learners elaborate and solidify their understanding of the concept and/or apply it to a real world situation resulting in a deeper understanding. Teachers facilitate activities that help the learner correct remaining misconceptions and generalize concepts in a broader context. (e.g. labs, web-quest, presentations, debate, discussion, ISN-reflection…)
Evaluate / Teachers and Learners evaluate proficiency of learning targets, concepts and skills throughout the learning process. Evaluations should occur before activities, to assess prior knowledge, after activities, to assess progress, and after the completion of a unit to assess comprehension. (i.e. formatives and summatives)
*Adapted from The BSCS 5E Instructional Model: Origins, Effectiveness, and Applications, July 2006, Bybee, et.al, pp. 33-34.
Cognitive Complexity
The benchmarks in the Next Generation Sunshine State Standards (NGSSS) identify knowledge and skills students are expected to acquire at each grade level, with the underlying expectation that students also demonstrate critical thinking.
The categories—low complexity, moderate complexity, high complexity—form an ordered description of the demands a test item may make on a student. Instruction in the classroom should match, at a minimum, the complexity level of the learning target in the curriculum map.
Low / Moderate / HighThis category relies heavily on the recall and recognition of previously learned concepts and principles. Items typically specify what the student is to do, which is often to carry out some procedure that can be performed mechanically. It is not left to the student to come up with an original method or solution. / This category involves more flexible thinking and choice among alternatives than low complexity items. They require a response that goes beyond the habitual, is not specified, and ordinarily has more than a single step or thought process. The student is expected to decide what to do—using formal methods of reasoning and problem-solving strategies—and to bring together skill and knowledge from various domains. / This category makes heavy demands on student thinking. Students must engage in more abstract reasoning, planning, analysis, judgment, and creative thought. The items require that the student think in an abstract and sophisticated way often involving multiple steps.
Students will:
· retrieve information from a chart, table, diagram, or graph
· recognize a standard scientific representation of a simple phenomenon
· complete a familiar single-step procedure or equation using a reference sheet / Students will:
· interpret data from a chart, table, or simple graph
· determine the best way to organize or present data from observations, an investigation, or experiment
· describe examples and non-examples of scientific processes or concepts
· specify or explain relationships among different groups, facts, properties, or variables
· differentiate structure and functions of different organisms or systems
· predict or determine the logical next step or outcome
· apply and use concepts from a standard scientific model or theory / Students will:
· analyze data from an investigation or experiment and formulate a conclusion
· develop a generalization from multiple data sources
· analyze and evaluate an experiment with multiple variables
· analyze an investigation or experiment to identify a flaw and propose a method for correcting it
· analyze a problem, situation, or system and make long-term predictions
· interpret, explain, or solve a problem involving complex spatial relationships
*Adapted from Webb’s Depth of Knowledge and FLDOE FCAT 2.0 Specification Documentation, Version 2.
Middle Grades Weekly Curriculum Trace2015 / Week 1 / Week 2 / Week 3 / Week 4 / Week 5 / Week 6 / Week 7 / Week 8 / Week 9
6th Grade / The Nature of Science / Earth Structures and Changes / DIAS / Earth’s Systems
7th Grade / The Nature of Science / EM Spectrum and Light / DIAS / Energy Temperature and Heat / DIAS
8th Grade / Get Ready, Get Set, GO DO SCIENCE! / SMT 1 / Atomic Theory and Periodic Table / DIAS / Compounds and Mixtures / DIAS
2015 / Week 10 / Week 11 / Week 12 / Week 13 / Week 14 / Week 15 / Week 16 / Week 17 / Week 18 (2016) / Week 19 (2016)
6th Grade / Earth Systems and Patterns / DIAS / The Sun’s Energy Weather and Climate / DIAS / Energy, Forces, and Motion of Objects
7th Grade / Earth Layers
Plate Tectonics / DIAS / Rock Cycle
Age of the Earth / DIAS
8th Grade / Properties of Matter / DIAS / Matter Cycles / SMT 2 / Matter Cycles / DIAS
2016 / Week 20 / Week 21 / Week 22 / Week 23 / Week 24 / Week25 / Week 26 / Week 27 / Week 28
6th Grade / Energy, Forces, and Motion of Objects / DIAS / Cell Theory, Structure, and Function / DIAS
7th Grade / Heredity and Reproduction
Genetics / DIAS / Natural Selection
Evidence of Evolution
8th Grade / The Universe / DIAS / Solar System / DIAS
2015 / Week 29 / Week 30 / Week 31 / Week 32 / Week 33 / Week 34 / Week 35 / Week 36
6th Grade / Human Body Systems during Standardized Testing / DIAS / Classification / DIAS
7th Grade / Nat. Selec Evolution / DIAS / Interdependence
Limiting Factors during Standardized Testing / DIAS
8th Grade / FCAT REVIEW / FCAT Administration / Transition to High School
*DIAS (District Interim Assessments Science) are content-specific tests developed by the district and teacher committees to aid in student progress monitoring.
**Weeks 37-39 are set aside for course review and EOC administration.
Comprehensive Science 2 (Regular and Advanced Curricula)
Week / Date / Topic(s) / Unit DIAS
1 – 5 / 24 August – 25 September / Science Process
EM Spectrum and Light / EM Spectrum and Light
6 – 9 / 28 September – 23 October / Energy
Temperature and Heat / Energy & Heat
End of 1st Grading Period
10 – 15 / 26 October – 4 December / Earth’s Layers
Plate Tectonics / Plate Tectonics
16 – 17 / 7 December- 18 December / Rock Cycle / Geology
Winter Break
18 – 19 / 4 January - 15 January / Age of the Earth
End of 2nd Grading Period
20 – 25 / 18 January –26 February / Heredity and Reproduction
Genetics / Genetics
26 – 29 / 29 February- 1 April / Natural Selection
Evidence of Evolution / Evolution
End of 3rd Grading Period – Spring Break
30-36 / 4 April – 20 May / Interdependence
Limiting Factors / Ecology
37 – 39 / 23 May – 7 June / Review and Administer EOC* / 7th Grade EOC
End of 4th Grading Period – Summer Break
Expectations:
The National Science Teacher Association, NSTA, and the district science office recommend that all students experience and participate in at least one hands-on-based lab per week. At least one (1) lab per grading period should have a written lab report with analysis and conclusion. / Safety Contract:
http://www.nsta.org/docs/SafetyInTheScienceClassroom.pdf
Safety, Cleanup, and Laws:
http://labsafety.flinnsci.com/Chapter.aspx?ChapterId=88&UnitId=1
http://labsafety.flinnsci.com/CertificateCourseSelection.aspx?CourseCode=MS
The Nature of Science
*Nature of Science Standards, NOS focus, are explicitly applied in content throughout the year. / Weeks 1 – 39
Topics / Learning Targets and Skills / Standards / Vocabulary
The Nature of Science / Students will:
· describe science as the study of the natural world.
· give examples and non-examples of science / SC.7.N.1.3 / science
scientific reasoning
non-example
pseudoscience
Students will:
· differentiate between an experiment (control group and variables) and other types of scientific investigations
· discuss examples of scientific knowledge not derived from experimentation
o examples: observations, surveys, data collections, simulation
· describe methods used in pursuit of scientific knowledge in different fields of science (Biology, Chemistry, Geology, Physics) / SC.7.N.1.3
SC.7.N.1.5 / control group
experiment
inference
investigation
methods
observation