Lesson Plan VR - Education
Teacher candidate will teach one explicit instruction lesson in ELA to support the use of assessment data to improve student outcomes. Students will choose the following standards to create their explicit instruction lesson plan to a 3rd or 6th grade class.
CCR.SL.1: Prepare for and participate effectively in a range of conversations and collaborations with diverse partners, building on others’ ideas and expressing their own clearly and persuasively.
You are a 3rd or 6th grade teacher preparing to teach a reading lesson on fluency to a diverse group of students in an inclusion classroom. Remember you can use strategies from the articles on Student Engagement to come up with lesson activities. Harrison is one of your students, he has a specific learning disability in reading. Create your lesson plan and gather supplementary materials based on the fluency data in appendix B. The lesson plan should be created to forward Harrisons progress in fluency as stated in his IEP.
Objective
Teachers will integrate HLP #6 into a lesson they create. Then they will teach an explicit instruction lesson that incorporates evidence-based strategies that promote assessment data, analysis of instructional practices, and modifying instruction to improve student outcomes in the area of literacy.
To hit this objective teacher candidate will:
· Develop appropriate instructional goals based on existing student data.
· Evaluate student data to adjust instruction.
· Manage and engage ongoing data collection during the teaching of the lesson.
· Utilize curriculum-based measures, informal classroom assessments, observations of student academic performance and behavior, and/or self-assessment of classroom instruction.
· Facilitate discussions with key stakeholders (students, parents, etc.)
· Set goals for own teaching based on valid hypotheses from instruction.
Teacher created lesson plans & accompanying documents (i.e., graphic organizers, PowerPoint, etc.)
Lesson Plan Template
Teacher Name: ____________________Date: __________
LESSON TITLE:
Standards of Learning:
Grade level, student audience
Objective
Lesson Assessment
Opening
I Do
We Do
You Do
Closing
[Text Wrapping Break]
7 Miss Admin Code, Part 169
2
2018 Mississippi
College- and Career-Readiness
Standards for Science
Carey M. Wright, Ed.D., State Superintendent of Education
Kim S. Benton, Ed.D., Chief Academic Officer
Jean Massey, Executive Director, Office of Secondary Education
Nathan Oakley, Ph.D., Executive Director, Office of Elementary Education and Reading
Wendy Clemons, Executive Director, Office of Professional Development
Tenette Smith, Ed.D., Bureau Director, Office of Elementary Education and Reading
Marla Davis, Ph.D., NBCT, Bureau Director, Office of Secondary Education
Jackie Sampsell, Ed.D., Science Specialist, Office of Secondary Education
3
Mississippi Department of Education
Post Office Box 771
Jackson, Mississippi
39205-0771
Office of Elementary Education and Reading
Office of Secondary Education
601-359-2586
www.mde.k12.ms.us/ESE
The Mississippi State Board of Education, the Mississippi Department of Education, the
Mississippi School for the Arts, the Mississippi School for the Blind, the Mississippi School for the
Deaf, and the Mississippi School for Mathematics and Science do not discriminate on the basis of
race, sex, color, religion, national origin, age, or disability in the provision of educational programs
and services or employment opportunities and benefits. The following office has been designated
to handle inquiries and complaints regarding the nondiscrimination policies of the above
mentioned entities:
Director, Office of Human Resources
Mississippi Department of Education
http://www.mde.k12.ms.us/ESE
2018 MISSISSIPPI COLLEGE- and CAREER-READINESS STANDARDS for SCIENCE
4
Table of Contents
Acknowledgements .............................................................................................................................. 6
Introduction .......................................................................................................................................... 9
2018 Mississippi College- and Career-Readiness Standards for Science Overview ........................... 10
Research and Background Information.............................................................................................. 11
Core Elements in the Use and Design of the MS CCRS for Science .................................................... 11
Content Strands and Disciplinary Core Ideas ..................................................................................... 13
Structure of the Standards Document ............................................................................................... 14
Safety in the Science Classroom ......................................................................................................... 15
Support Documents and Resources ................................................................................................... 15
References .......................................................................................................................................... 16
GRADES K-2 OVERVIEW ...................................................................................................................... 18
KINDERGARTEN .................................................................................................................................. 20
GRADE ONE ........................................................................................................................................ 24
GRADE TWO ....................................................................................................................................... 28
GRADES 3-5 OVERVIEW ...................................................................................................................... 32
GRADE THREE ..................................................................................................................................... 34
GRADE FOUR ...................................................................................................................................... 39
GRADE FIVE......................................................................................................................................... 43
GRADES 6-8 OVERVIEW ...................................................................................................................... 47
GRADE SIX ........................................................................................................................................... 49
GRADE SEVEN ..................................................................................................................................... 52
GRADE EIGHT ...................................................................................................................................... 56
GRADES 9-12 OVERVIEW .................................................................................................................... 61
BIOLOGY ............................................................................................................................................. 63
BOTANY .............................................................................................................................................. 69
CHEMISTRY ......................................................................................................................................... 74
EARTH AND SPACE SCIENCE ............................................................................................................... 81
2018 MISSISSIPPI COLLEGE- and CAREER-READINESS STANDARDS for SCIENCE
5
ENVIRONMENTAL SCIENCE ................................................................................................................ 85
FOUNDATIONS OF BIOLOGY ............................................................................................................... 89
FOUNDATIONS OF SCIENCE LITERACY................................................................................................ 94
GENETICS ............................................................................................................................................ 98
HUMAN ANATOMY AND PHYSIOLOGY ............................................................................................ 102
MARINE AND AQUATIC SCIENCE I .................................................................................................... 110
MARINE AND AQUATIC SCIENCE II ................................................................................................... 110
PHYSICAL SCIENCE ............................................................................................................................ 116
PHYSICS ............................................................................................................................................. 122
ZOOLOGY I (Invertebrate) ................................................................................................................ 127
ZOOLOGY II (Vertebrate) .................................................................................................................. 127
2018 MISSISSIPPI COLLEGE- and CAREER-READINESS STANDARDS for SCIENCE
6 Acknowledgements
Acknowledgements
The Mississippi Department of Education gratefully acknowledges the hard work of the following
individuals for their involvement in developing the Mississippi College‐ and Career‐Readiness
Standards for Science and the supporting documents.
SCIENCE WRITING TASK FORCE COMMITTEE MEMBERS (2015-2017)
Jennifer Bennett Calhoun County School District
Tim Bermond Clinton Public School District
Shani Bourn Hancock County School District
Tammie Bright Yazoo County School District
Kelly Cannan Pascagoula-Gautier School District
Holly Carden Desoto County School District
Peggy Carlisle Jackson Public Schools
Tonya Carter Sunflower County Consolidated School District
Renee Clary, Ph.D. Mississippi State University Department of Geosciences
Gail Davis Lafayette County Schools
Charronda Denis Pascagoula-Gautier School District
Deborah Duncan Neshoba County School District (Retired)
Tammie Franklin Grenada School District
Kevin Gaylor Jackson Public School District
Darcie Graham University of Southern Mississippi Gulf Coast Research Lab
Tia Green Tupelo Public School District
Brandi Herrington Starkville Oktibbeha Consolidated School District
Jennifer Hood Amory School District
Ann Huber Mississippi Delta Community College/MSTA President
Whitney Jackson University of Mississippi Center for Mathematics and Science
Education
Deborah Jones Lafayette County Schools/Northwest Community College
Tiffany Jones-Fisher Mississippi Gulf Coast Community College
Myra Kinchen, Ed.D. Clinton Public School District
Melissa Levy Madison County School District
Jill Lipski Long Beach School District
Sharman Lumpkin Pearl River County School District
Heather Maness Forest Municipal School District
Celeste Maugh Tunica County School District
Angela McDaniel Pearl Public School District
Crystina Moran Biloxi Public School District
Jennifer Pannell Union County School District
Maureen Pollitz Picayune School District
Linda Posey Meridian Public School District
Terry Rose Stone County School District
Leslie Salter Pascagoula-Gautier School District
Betsy Sullivan, Ph.D. Madison County School District
Heather Sullivan Mississippi Museum of Natural Science
Mary Swindell Meridian Public School District
Kimberly Taylor-Gathings Columbus Municipal School District
2018 MISSISSIPPI COLLEGE- and CAREER-READINESS STANDARDS for SCIENCE
7 Acknowledgements
Jessica Tegt, Ph.D. Mississippi State University Dept. of Wildlife, Fisheries, and
Aquaculture/Extension
David Teske Louisville Public Schools (Retired)
Julie Viguerie Lamar County School District
Tina Wagner Mississippi School for Math and Science
Ryan Walker, Ph.D. Mississippi State University Dept. of Curriculum, Instruction, and
Special Education
Tiffany Webb Gulfport School District
Kristy Wheat Pass Christian School District
Veronica Wylie Copiah County School District
FINAL REVIEW COMMITTEE (March 2017)
Cassie Barr Marion County School District
Cindy Betancourt Petal Public School District
Tammie Bright Yazoo County School District
Brandon Cline Rankin County School District
Deborah Duncan Neshoba County School District (Retired)
Kasey Edwards Neshoba County School District
Sharon Evans Petal Public School District
Tia Green Tupelo Public School District
Courtney Harris Clinton Public School District
Jennifer Hite Pearl Public School District
Myra Kinchen, Ed.D Clinton Public School District
Bailey Kennedy South Tippah School District
Elizabeth Knight Rankin County School District
Jill Lipski Long Beach School District
Heather Maness Forest Municipal School District
Misti McDaniel Neshoba County School District
Charlotte McNeese Madison County School District
Angie Moore Pearl Public School District
Ashley Pfalzgrat Rankin County School District
April Pounders South Tippah School District
Bobby Robinson Madison County School District
Terry Rose Stone County School District
Leslie Salter Pascagoula-Gautier School District
Jessica Satcher Lauderdale County School District
Andy Scoggin Petal Public School District
Fonya Scott Lauderdale County School District
Holly Sparks Gulfport School District
Betsy Sullivan, Ph.D. Madison County School District
Kelle Sumrall Lafayette County School District
Jane Thompson Gulfport School District
Jason Woodcock Clinton Public School District
Kristy Wheat Pass Christian School District
COORDINATION AND EDITING (2015 – 2017)
Gabrielle Barrientos Research and Curriculum Unit, Mississippi State University
Marla Davis, Ph.D. Mississippi Department of Education
Anne Hierholzer-Lang Research and Curriculum Unit, Mississippi State University
2018 MISSISSIPPI COLLEGE- and CAREER-READINESS STANDARDS for SCIENCE
8 Acknowledgements
Tanjanikia McKinney University of Mississippi/Mississippi Department of Education
Cindy Ming Research and Curriculum Unit, Mississippi State University
Holly Holladay Research and Curriculum Unit, Mississippi State University
Kenny Langley Research and Curriculum Unit, Mississippi State University
Jean Massey Mississippi Department of Education
Roslyn Miller Research and Curriculum Unit, Mississippi State University
Nathan Oakley, Ph.D. Mississippi Department of Education
Myra Pannell Research and Curriculum Unit, Mississippi State University
Jackie Sampsell, Ed.D. Mississippi Department of Education
Denise Sibley Research and Curriculum Unit, Mississippi State University
Jolanda Young Research and Curriculum Unit, Mississippi State University
2018 MISSISSIPPI COLLEGE- and CAREER-READINESS STANDARDS for SCIENCE
9 Introduction
Introduction
Mission Statement
The Mississippi Department of Education is dedicated to student success, which includes improving student
achievement in science, equipping citizens to solve complex problems, and establishing fluent
communication skills within a technological environment. The Mississippi College- and Career-Readiness
Standards provide a consistent, clear understanding of what students are expected to know and be able to
do by the end of each grade level or course. The standards are designed to be robust and relevant to the
real world, reflecting the knowledge and skills that students need for success in college and careers and
allowing students to compete in the global economy.
Purpose
In an effort to closely align instruction for students who are progressing toward postsecondary study and
the workforce, the 2018 Mississippi College‐ and Career‐Readiness Standards for Science includes grade-
and course-specific standards for K-12 science.
This document is designed to provide K-12 science teachers with a basis for curriculum development. In
order to prepare students for careers and college, it outlines what knowledge students should obtain, and
the types of skills students must master upon successful completion of each grade level. The 2018
Mississippi College‐ and Career‐Readiness Standards (MS CCRS) for Science replaces the 2010 Mississippi
Science Framework. These new standards reflect national expectations while focusing on postsecondary
success, but they are unique to Mississippi in addressing the needs of our students and teachers. The
standards’ content centers around three basic content strands of science: life science, physical science, and
Earth and space science. Instruction in these areas is designed for a greater balance between content and
process. Teachers are encouraged to transfer more ownership of the learning process to students, who can
then direct their own learning and develop a deeper understanding of science and engineering practices,
critical analysis, and knowledge. Doing so will produce students that will become more capable,
independent, and scientifically literate adults.
Implementation
The 2018 Mississippi College‐ and Career‐Readiness Standards (MS CCRS) for Science will be implemented
during the 2018-2019 school year.
2018 MISSISSIPPI COLLEGE- and CAREER-READINESS STANDARDS for SCIENCE
10 Overview of MS CCRS for Science
2018 Mississippi College- and
Career-Readiness Standards for
Science Overview
2018 MISSISSIPPI COLLEGE- and CAREER-READINESS STANDARDS for SCIENCE
11 Overview of MS CCRS for Science
Research and Background Information
In today’s modern world and complex society, our students are required to possess sufficient knowledge of
science and engineering to become vigilant consumers of scientific and technological information. To meet
the growing challenges facing our future workforce, the National Research Council (NRC) published a
research-based report on teaching and learning science in a 2012 document titled A Framework for K‐12
Science Education: Practices, Crosscutting Concepts, and Core Ideas (NRC, 2012). This document proposes a
new approach to K-12 science education through the integration of science and engineering practices
(SEPs), crosscutting concepts, disciplinary core ideas, and engineering design within the context of science
instruction.
Core Elements in the Use and Design of the MS CCRS for Science
The MS CCRS for Science are goals that reflect what a student should know and be able to do. This
document does not dictate a manner or methods of teaching. The standards in this document are not
sequenced for instruction and do not prescribe classroom activities, materials, or instruction strategies.
These standards are end-of year expectations for each grade or course. The standards are intended to drive
relevant and rigorous instruction that emphasizes student mastery of both disciplinary core ideas
(concepts) and application of science and engineering practices (skills) to support student readiness for
citizenship, college, and careers.
The MS CCRS for Science document was built by adapting and extending information from A Framework for
K‐12 Science Education: Practices, Crosscutting Concepts, and Core Ideas (NRC, 2012) and combining with
Mississippi’s previous science framework process strands (i.e., science as inquiry, unifying concepts and
processes, science and technology, science in personal and social perspectives, and the history and nature
of science). These concepts connect information across the science content strands (i.e., life science,
physical science, and Earth and space science) with the disciplinary core ideas (e.g., ecology and
interdependence, motions, forces, and energy, Earth systems and cycles) and are essential to both
scientists and engineers because they identify common properties and processes found in practice.
The core elements are integrated across standards and performance objectives in each grade and course. A
brief description of each core element is presented below.
1. Nature of Science: Science and Engineering Practices (SEPs) replaced the Inquiry Strand included in
the 2010 Mississippi Science Framework. Beyond integration within the standards, these practices
must be mastered by students to produce a more scientifically literate citizenry and to develop
students that are more excited about STEM (Science, Technology, Engineering, and Mathematics)
topics and careers. Inquiry verbs, along with the SEPs, are woven throughout the standards,
especially in the performance objectives. Each has a deliberate placement to indicate the depth of
understanding expected of students.
The practices describe the behaviors that scientists engage in as they investigate and build models
and theories about the natural world. They also describe the key set of engineering practices that
engineers use as they design and build models and systems. These practices work together (overlap
and interconnect) and are not separated in the study and investigation of science concepts. For
example, the practice of mathematical and computational thinking may include some aspects of
analyzing and interpreting data. The data often come from planning and carrying out an
investigation. The writing task force for the MS CCRS for Science incorporated this language into the
2018 MISSISSIPPI COLLEGE- and CAREER-READINESS STANDARDS for SCIENCE
12 Overview of MS CCRS for Science
performance objectives to emphasize the importance of a student-centered science classroom and
not a teacher-centered classroom. A list of these eight practices is listed below.
a. Ask Questions (science) and Define Problems (engineering)
b. Develop and Use Models
c. Plan and Conduct Investigations
d. Analyze and Interpret Data
e. Use Mathematical and Computational Thinking
f. Construct Explanations (science) and Design Solutions (engineering)
g. Engage in Scientific Argument from Evidence
h. Obtain, Evaluate, and Communicate Information
2. Crosscutting concepts: These seven, binding concepts were adopted directly from the National
Research Council’s A Framework for K‐12 Science Education: Practices, Crosscutting Concepts, and
Core Ideas (2012) and should be woven into instruction for every grade and course. Crosscutting
concepts are designed to help students see the unity of the sciences. Students often are confused
when they study ecosystems for three weeks, then weather for two weeks, and finally motion and
forces for several weeks. A concept is crosscutting if it communicates a scientific way of thinking
about a subject and it applies to many different disciplines of science and engineering. Crosscutting
concepts are sometimes called “the ties that bind.” The seven concepts are listed below.
a. Patterns
b. Cause and effect: Mechanism and explanation
c. Scale, proportion, and quantity
d. Systems and system models
e. Energy and matter: Flows, cycles, and conservation
f. Structure and function
g. Stability and change
3. Technology: If Mississippi students are to compete on a global stage and exit high school prepared
for college, career, and life, technology should be used in the classroom in a way that suits 21st-
century learners and reflects the modern workplace. Technology is essential in teaching and
learning of science; it influences and enhances students’ learning. Flexible access, customized
delivery, and increased convenience for the user are core tenets. K-12 learners have fundamentally
changed over the past few decades, and our classrooms should adapt to accommodate them. Dr.
Ruben Puentedura’s SAMR (Substitution, Augmentation, Modification, and Redefinition) model is a
resource that can be considered by teachers, administrators, and technology staff as they integrate
meaningful and appropriate digital learning experiences into the classroom. At the basic level,
technology enhances instruction.
4. Science and society: This core element assures exploration of science’s impacts on society and the
feedback loop that must be cultivated and sustained to continue improvement of systems.
5. History of science: Because most modern-day scientific advancement derives from past discoveries,
it is essential that students understand the breakthroughs that make today’s work possible.
6. Engineering design process (EDP) is the method of devising a system, component, or process to
meet desired needs. Engineering standards are represented in some performance objectives with
grade-banded, specific wording that prompts educators to approach learning and exploration using
the engineering process. These performance objectives are marked with an *. It is important to
2018 MISSISSIPPI COLLEGE- and CAREER-READINESS STANDARDS for SCIENCE
13 Overview of MS CCRS for Science
note that the EDP is flexible. Most students will approach the process in various ways. The EDP is
also a cycle—there is no official start or end point. Students can begin at any step, focus on just one
step, move back and forth between steps, or repeat the cycle. Professional development and
teacher resources will be developed for Mississippi teachers as EDP is incorporated into Mississippi
standards.
Students should be provided a safe environment for failure without consequence, which is one of
the most powerful drivers in learning. Providing many opportunities for students to fail, learn, and
try again, with appropriate levels of support, fosters a deeper level of understanding and greater
student interest and engagement.
Other Important Core Elements
Mathematics is integrated throughout the science standards document because it is essential to the
scientific process, requiring students to quantify, analyze, and present results. Students must be familiar
with data analysis, critical thinking, and recording their own data; students must organize and analyze it
before presenting their findings. Analysis of scientific studies and publications from a quantitative
perspective is also very important.
English/language arts skills are also integrated into the science standards. Students will be required to read
informational text for understanding as well as process and critique information. Students must be able to
articulate a critical point of view using proper terminology. In addition, the K-4 science curriculum should
be increasingly tied to language arts to lay the foundation for students to have access to science before fifth
grade.
Content Strands and Disciplinary Core Ideas
Science (and engineering) fields can be divided into three content-strand domains based on relative
content presented in strands, extending from kindergarten to eighth grade. Grouping content in this way
allows for vertical alignment of competencies and objectives to better organize content distribution.
Content strands are not included in the Grades 9-12 course organization, which allows for a more logical,
sequential placement and flow of content. Content strands are subdivided into 10 disciplinary core ideas in
which standards and performance objectives for science content can be placed in grades K-8.
K-8 content strands with the 10 disciplinary core ideas include:
Life Science
1. Hierarchical Organization
2. Reproduction and Heredity
3. Ecology and Interdependence
4. Adaptations and Diversity
Physical Science
5. Organization of Matter and Chemical Interactions
6. Motions, Forces, and Energy
Earth and Space Science
7. Earth’s Structure and History
8. Earth and the Universe
9. Earth Systems and Cycles
10. Earth’s Resources
2018 MISSISSIPPI COLLEGE- and CAREER-READINESS STANDARDS for SCIENCE
14 Overview of MS CCRS for Science
Structure of the Standards Document
The organization and structure of this standards document are as follows:
● Grade-band overview: An overview that describes the general content and themes for the grade-
level band or the high school courses. Outputs and outcomes are provided along with examples of,
and references to, science and engineering practices and connecting concepts.
● Grade-level or course overview: An overview that describes the specific content and themes for
each grade level and/or high school course. The K-8 standards are presented with each grade
focused on a grade-level theme. High school courses provide an overview of the major ideas and
strategies to use when planning instruction for the course.
● Content strand: Domains into which science fields can be divided based on relative content
extending from kindergarten to eighth grade. In grades K through 8, the content strands are
organized into three distinct areas: (1) life science, (2) physical science, and (3) Earth and space
science. For the Grade 9-12 courses, the content areas are organized around the core ideas of each
course.
● Disciplinary core ideas: Subdivision of the main content strands providing recurring ideas from the
three content strands. The core ideas are the key organizing principles for the development of
learning units. The K-8 vertical alignment is designed in a spiral arrangement, which places
emphasis on one of the three content strands in each grade level. All content strands will be found
in each grade level, but all disciplinary core ideas will not be found in every grade level in K-8 due to
the spiral arrangement of content.
● Conceptual understanding: Statements of the core ideas for which student should demonstrate an
understanding. Some grade level and/or course topics include more than one conceptual
understanding with each guiding the intent of the standards.
• Content standards: Written below each disciplinary core ideas and conceptual understanding, the
standards are a general statement of what students should know and be able to do because of
instruction.
● Performance objectives: Detailed statements of content and skills to be mastered by the students.
Performance objectives are specific statements of what students know and can do because of the
science instruction at that level. These statements contain SEP and inquiry verb language.
Standards will appear in the following format:
Grade-Band Overview
Grade Level Theme (K-8)
Grade Level (K-8) or Course Overview (9-12)
Grade Level: Content Strand (K-8); Course Name (9-12)
Disciplinary Core Idea (DCI)
Conceptual Understanding
Standard
Performance Objectives
2018 MISSISSIPPI COLLEGE- and CAREER-READINESS STANDARDS for SCIENCE
15 Overview of MS CCRS for Science
Safety in the Science Classroom
The National Science Teachers Association (NSTA) encourages K–12 school leaders and teachers to promote
and support the use of science activities in science instruction and work to avoid and reduce injury. NSTA
provides the following guidelines for school leaders and teachers to develop safety programs that include
the effective management of chemicals, implement safety training for teachers and others, and create
school environments that are as safe as possible (NSTA 2013).
1) National Science Teacher Association’s Safety in the Science Classroom, accessible at …
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The ability to view ourselves from an unbiased perspective allows us to critically assess our personal strengths and weaknesses. This is an important step in the process of finding the right resources for our personal learning style. Ego and pride can be
· By Day 1 of this week
While you must form your answers to the questions below from our assigned reading material
CliftonLarsonAllen LLP (2013)
5 The family dynamic is awkward at first since the most outgoing and straight forward person in the family in Linda
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The most important benefit of my statistical analysis would be the accuracy with which I interpret the data. The greatest obstacle
From a similar but larger point of view
4 In order to get the entire family to come back for another session I would suggest coming in on a day the restaurant is not open
When seeking to identify a patient’s health condition
After viewing the you tube videos on prayer
Your paper must be at least two pages in length (not counting the title and reference pages)
The word assimilate is negative to me. I believe everyone should learn about a country that they are going to live in. It doesnt mean that they have to believe that everything in America is better than where they came from. It means that they care enough
Data collection
Single Subject Chris is a social worker in a geriatric case management program located in a midsize Northeastern town. She has an MSW and is part of a team of case managers that likes to continuously improve on its practice. The team is currently using an
I would start off with Linda on repeating her options for the child and going over what she is feeling with each option. I would want to find out what she is afraid of. I would avoid asking her any “why” questions because I want her to be in the here an
Summarize the advantages and disadvantages of using an Internet site as means of collecting data for psychological research (Comp 2.1) 25.0\% Summarization of the advantages and disadvantages of using an Internet site as means of collecting data for psych
Identify the type of research used in a chosen study
Compose a 1
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effect relationship becomes more difficult—as the researcher cannot enact total control of another person even in an experimental environment. Social workers serve clients in highly complex real-world environments. Clients often implement recommended inte
I think knowing more about you will allow you to be able to choose the right resources
Be 4 pages in length
soft MB-920 dumps review and documentation and high-quality listing pdf MB-920 braindumps also recommended and approved by Microsoft experts. The practical test
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One thing you will need to do in college is learn how to find and use references. References support your ideas. College-level work must be supported by research. You are expected to do that for this paper. You will research
Elaborate on any potential confounds or ethical concerns while participating in the psychological study 20.0\% Elaboration on any potential confounds or ethical concerns while participating in the psychological study is missing. Elaboration on any potenti
3 The first thing I would do in the family’s first session is develop a genogram of the family to get an idea of all the individuals who play a major role in Linda’s life. After establishing where each member is in relation to the family
A Health in All Policies approach
Note: The requirements outlined below correspond to the grading criteria in the scoring guide. At a minimum
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Read Connecting Communities and Complexity: A Case Study in Creating the Conditions for Transformational Change
Read Reflections on Cultural Humility
Read A Basic Guide to ABCD Community Organizing
Use the bolded black section and sub-section titles below to organize your paper. For each section
Losinski forwarded the article on a priority basis to Mary Scott
Losinksi wanted details on use of the ED at CGH. He asked the administrative resident