Grade 10 - Science

AP Biology A - Semester 1 (Credit: 0.50)

To generate skills for lifelong learning, 25 percent of the lessons in Advanced Biology use student-driven, constructivist approaches for concept development. The remaining lessons employ direct-instruction approaches. In both cases, the lessons incorporate multimedia-rich, interactive resources to make learning an engaging experience. The AP approach to advanced biology topics helps students achieve mastery of abstract concepts and their application in everyday life and in STEM-related professions.

AP Biology B - Semester 2 (Credit: 0.50)

This course is semester 2 only of Advanced Biology.To generate skills for lifelong learning, 25 percent of the lessons in Advanced Biology use student-driven, constructivist approaches for concept development. The remaining lessons employ direct-instruction approaches. In both cases, the lessons incorporate multimedia-rich, interactive resources to make learning an engaging experience. The AP approach to advanced biology topics helps students achieve mastery of abstract concepts and their application in everyday life and in STEM-related professions.

AP Chemistry A - Semester 1 (Credit: 0.50)

The Advanced Chemistry course is designed around the AP Chemistry Curriculum Framework establishedby the College Board. The course is presented through the lens of scientific inquiry the process of channeling human curiosity into purposeful exploration, discovery, and application of observable natural phenomena. In this course, students will grow to understand their physical world in a deep way. At the same time, an inquiry and STEM - oriented approach to chemistry offers students a shared method of asking questions about the world around them. Their experience and knowledge from this course — tied to a strong emphasis on qualitative and q uantitative analysis and communication — is designed to enable them to understand important scientific and societal problems and to creatively grapple with such problems. I n this blended online course (employing both online and face - to - face learning), studen ts will be taught and encouraged to continually pose questions about the subject matter. Through exploration and discovery of the phenomenon at the core of each lesson, students will be guided to answer their own questions and will be able to discuss the phenomenon in ways that reflect sound scientific practices.

AP Chemistry B - Semester 2 (Credit: 0.50)

The Advanced Chemistry course is designed around the AP Chemistry Curriculum Framework established by the College Board. The course is presented through the lens of scientific inquiry — the process of channeling human curiosity into purposeful exploration, discovery, and application of observable natural phenomena. In this course, students will grow to understand their physical world in a deep way. At the same time, an inquiry and STEM - oriented approach to chemistry offers students a shared method of asking questions about the world around them. Their experience and knowledge from this course — tied to a strong emphasis on qualitative and q uantitative analysis and communication — is designed to enable them to understand important scientific and societal problems and to creatively grapple with such problems. Students will be taught and encouraged to continually pose questions about the subject matter. Through exploration and discovery of the phenomenon at the core of each lesson, students will be guided to answer their own questions and will be able to discuss the phenomenon in ways that reflect sound scientific practices.

Biology A - Semester 1 (Credit: 0.50)

Biology is a science dedicated to studying all forms of life on Earth. You are probably familiar with life on a large scale, but do you know what makes up life? This course will teach you about the smallest building block of life—the cell. You will learn what makes a cell, how cells are built and their functions, as well as how mutations in cells can cause them to change genetically. Course Goals: By the end of the course the student will be able to do the following: Describe the basic building blocks of life. Describe the structure and functions of a cell. Identify the chemicals which make up individual cells. Explain how gene-based inheritance in genetics works. Explain how mutations affect molecular genetics. Explain the processes of macro and micro evolution.

Biology B - Semester 2 (Credit: 0.50)

Biology is a science dedicated to studying all forms of life on Earth. You are probably familiar with a number of plants and animals, but do you know what makes them different from each other? This course will show you how scientists categorize various types of life, as well as the structure of plants and animals. You will also learn about how ecosystems support different life forms, and how the systems change to cater to the life forms that live within them. Course Goals: By the end of this course, you will be able to do the following: Explain how life forms are classified by scientists. Differentiate between the various kingdoms. Identify the basic structures of plants. Describe the functions of systems within plants. Identify the basic systems within animals. Describe the functions of systems within animals. Explain how ecosystems interact with and support a variety of species.

Biology with Virtual Labs A (Credit: 0.50)

This inquiry- and virtual-lab-based course is designed to support modern science curriculum and teaching practices. It robustly meets NGSS learning standards for high school biology. Content topics include cells, organ systems, heredity, organization of organisms, evolution, energy use in organisms, and the interdependence of ecosystems. Each lesson includes one or more inquiry-based activities that can be performed online within the context of the lesson. In addition, the course includes a number of virtual lab activities in which students will exercise experimental design, data analysis, and data interpretation skills while working through a simulated laboratory situation. Lab materials note: None of the virtual labs require specialized laboratory materials or tools. Some virtual labs do allow students to make use of common, household items—such as paper and a pencil—if they choose.

Biology with Virtual Labs B (Credit: 0.50)

This inquiry- and virtual-lab-based course is designed to support modern science curriculum and teaching practices. It robustly meets NGSS learning standards for high school biology. Content topics include cells, organ systems, heredity, organization of organisms, evolution, energy use in organisms, and the interdependence of ecosystems. Each lesson includes one or more inquiry-based activities that can be performed online within the context of the lesson. In addition, the course includes a number of virtual lab activities in which students will exercise experimental design, data analysis, and data interpretation skills while working through a simulated laboratory situation. Lab materials note: None of the virtual labs require specialized laboratory materials or tools. Some virtual labs do allow students to make use of common, household items—such as paper and a pencil—if they choose.

Chemistry A - Semester 1 (Credit: 0.50)

Chemistry is the study of how a set of substances with particular physical properties— like solid paper and the oxygen in the air—can react with each other to form different substances with entirely different properties—like gaseous water and carbon dioxide. In most cases, these chemical changes result in an energy change as well, either giving off energy or absorbing energy. Chemistry is considered one of the core scientific disciplines because it is so practical and widely useful in the modern world. The development of new types of materials, new methods of producing or storing energy, or new methods of interacting with genetic material all depend upon knowledge of chemistry. In Chemistry A, you will learn some of the “basics” of chemistry: the atomic and molecular structures that result in different chemical properties and the concepts and tools that will enable you to predict chemical properties and chemical reactions.

Chemistry B - Semester 2 (Credit: 0.50)

Chemistry is the study of how a set of substances with particular physical properties— like solid paper and the oxygen in the air—can react with each other to form different substances with entirely different properties—like gaseous water and carbon dioxide. In most cases, these chemical changes result in an energy change as well, either giving off energy or absorbing energy. Chemistry is considered one of the core scientific disciplines because it is so practical and widely useful in the modern world. The development of new types of materials, new methods of producing or storing energy, or new methods of interacting with genetic material all depend upon knowledge of chemistry. In Chemistry B, you will learn about key types of chemical relationships and reactions, including solutions, reversible reactions, acid-base reactions, thermochemical systems, and electrochemical systems. You will use your knowledge to analyze new situations and make qualitative and quantitative predictions. Finally, you will extend your chemical knowledge into the areas of nuclear chemistry, organic chemistry, and biochemistry.

Florida Chemistry A - PL (Credit: 0.50)

Chemistry is the study of matter and how it changes. This course looks at matter’s composition, properties, and transformations. In this semester, you’ll explore the structure and properties of matter. You’ll analyze and construct the periodic table of elements. You’ll compare elements based on their atomic structures and relative positions in the periodic table. You will also discuss the chemical bonding taking place in ionic and covalent compounds and metals. Finally, you’ll predict the outcome of chemical reactions based on the reactants involved.

Florida Chemistry B - PL (Credit: 0.50)

Chemistry is the study of matter and how it changes. The course looks at matter’s composition, properties, and transformations. In this semester, you will calculate the theoretical quantities of substances involved in a chemical reaction through the study of stoichiometry. You’ll analyze chemical reactions that involve aqueous solutions, acids and bases, and gases. You’ll see how gases respond to changes in pressure, volume, temperature, and quantity through the ideal gas law. You’ll also calculate changes in temperature caused by physical and chemical processes and analyze reactions in terms of bond energies. Finally, you will understand how atoms are changed by the unique processes of radioactive decay, nuclear fusion, and nuclear fission.

High School Earth and Space Science A (Credit: 0.50)

Science is the study of the natural world. It relies on experimentation and physical evidence to describe the natural events that occur around us. Earth and Space Science A begins with space. You will observe the phases of the Moon and use scientific evidence to understand how Earth, the Sun, and the Moon interact. You’ll also examine other celestial objects in our solar system. This course describes the history of Earth through the study of energy flow, weathering and erosion, the rock cycle, and tectonic plate movements. You will apply an understanding of the three states of matter to explain the water cycle and other systems on Earth. The course ends with a discussion of Earth’s natural resources.

High School Earth and Space Science B (Credit: 0.50)

Science is the study of the natural world. It relies on experimentation and physical evidence to describe the natural events that occur around us. Earth and Space Science B explains how convection shapes the weather, climate, and movement of ocean currents on Earth. The course takes an in-depth look at climate change and the greenhouse effect in Earth’s atmosphere. It draws attention to severe weather events and describes how technology plays a role in keeping communities safe. It also explores how the growing human population poses challenges for the distribution of Earth’s natural resources today and in the future.

Integrated Physics & Chemistry (Credit: 1.00)

The lessons in this course employ direct-instruction approaches. They include application and Inquiry-oriented activities that facilitate the development of higher-order cognitive skills, such as logical reasoning, sense-making, and problem solving.

Integrated Physics & Chemistry A - Semester 1 (Credit: 0.50)

In Integrated Physics and Chemistry A, you will first learn about the “basics” of physics, since physics is actually the foundation of chemistry. In this course, you will learn how to describe and analyze motion, how forces interact with matter, and how to further describe these interactions with the aid of the concepts of energy and momentum. You will also learn about waves, electricity, and magnetism.

Integrated Physics & Chemistry B - Semester 2 (Credit: 0.50)

In Integrated Physics and Chemistry B, you will begin your study of chemistry. This includes the atomic and molecular structures that result in different chemical properties and the concepts and tools that will enable you to predict chemical properties and chemical reactions. You will learn about key types of chemical relationships and reactions, including solutions and acid-base reactions. Finally, you will extend your knowledge into the areas of thermal and nuclear energy.

Physics (Credit: 1.00)

Physics introduces students to the physics of motion, properties of matter, force, heat, vector, light, and sound. Students learn the history of physics from the discoveries of Galileo and Newton to those of contemporary physicists. The course focuses more on explanation than calculation and prepares students for introductory quantitative physics at the college level. Additional areas of discussion include gases and liquids, atoms, electricity, magnetism, and nuclear physics.

Physics A - Semester 1 (Credit: 0.50)

In Physics A, you will learn about the “basics” of physics: how to describe and analyze motion, how forces interact with matter, and how to further describe these interactions with the aid of the concepts of energy and momentum. Finally, you’ll explore one more specialized topic, thermodynamics, the physics of heat.

Physics B - Semester 2 (Credit: 0.50)

In Physics B, you will use your physical understanding of motion, forces and energy and apply that knowledge to some important, specialized topics in physics: the behavior of waves, applications of wave theory to light and optics, the interaction of electrical and magnetic forces, and the special “non-Newtonian” properties of energy and matter described by quantum theory.

Physiology (Credit: 0.50)

In this course, students will examine the functions of the body's biological systems-- including skeletal, muscular, circulatory, respiratory, digestive, reproductive, nervous, and reproductive systems. In addition to understanding the function of each system, students will learn the function of cells, blood, and sensory organs, as well as study DNA, immunity, and metabolic systems.

Texas Biology A - Semester 1 (Credit: 0.50)

Texas Biology, Semester 1, is a single-semester course designed to develop and enrich your knowledge in several core areas of biology. You will study cells, organs and organ systems, and heredity. This course consists of three units. In the first unit, you’ll broaden your understanding of the nature of science and examine cell theory and cellular processes. In the next unit, you’ll explore how human body systems function and interact. In the final unit of this course, you’ll study the role of cell division in an organism’s growth and development and learn more about heredity and genetics, including genetic mutations and inheritance patterns.

Texas Biology B - Semester 2 (Credit: 0.50)

Texas Biology, Semester 2, is a single-semester course designed to strengthen your understanding of several foundational concepts of biology. In this course, you’ll study the effect of evolutionary mechanisms on the characteristics of different species over time. You will learn to classify organisms based on their characteristics. In addition, you will explore the importance of micro- and macronutrients and processes such as photosynthesis and respiration in living organisms. At the end of the semester, you’ll study factors that affect the biodiversity of an ecosystem and solve a biodiversity problem.





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