S2CS1 Students will be aware of the importance of curiosity, honesty, openness, and skepticism in science and will exhibit these traits in their own efforts to understand how the world works.
a. Raise questions about the world around them and be willing to seek answers to some of the questions by making careful observations and measurements and trying to figure things out.
S2CS2 Students will have the computation and estimation skills necessary for analyzing data and following scientific explanations.
a. Use whole numbers in ordering, counting, identifying, measuring, and describing things and experiences.
b. Readily give the sums and differences of single-digit numbers in ordinary, practical contexts and judge the reasonableness of the answer.
c. Give rough estimates of numerical answers to problems before doing them formally.
d. Make quantitative estimates of familiar lengths, weights, and time intervals, and check them by measuring.
S2CS3 Students will use tools and instruments for observing, measuring, and manipulating objects in scientific activities.
a. Use ordinary hand tools and instruments to construct, measure, and look at objects.
b. Assemble, describe, take apart, and reassemble constructions using interlocking blocks, erector sets and other things.
c. Make something that can actually be used to perform a task, using paper, cardboard, wood, plastic, metal, or existing objects.
S2CS4 Students will use the ideas of system, model, change, and scale in exploring scientific and technological matters.
a. Identify the parts of things, such as toys or tools, and identify what things can do when put together that they could not do otherwise.
b. Use a model—such as a toy or a picture—to describe a feature of the primary thing.
c. Describe changes in the size, weight, color, or movement of things, and note which of their other qualities remain the same during a specific change.
d. Compare very different sizes, weights, ages (baby/adult), and speeds (fast/slow) of both human made and natural things.
S2CS5 Students will communicate scientific ideas and activities clearly.
a. Describe and compare things in terms of number, shape, texture, size, weight, color, and motion.
b. Draw pictures (grade level appropriate) that correctly portray features of the thing being described.
c. Use simple pictographs and bar graphs to communicate data.
S2CS6 Students will be familiar with the character of scientific knowledge and how it is achieved.
Students will recognize that:
a. When a science investigation is done the way it was done before, we expect to get a similar result.
b. Science involves collecting data and testing hypotheses.
c. Scientists often repeat experiments multiple times and subject their ideas to criticism by other scientists who may disagree with them and do further tests.
d. All different kinds of people can be and are scientists.
S2CS7 Students will understand important features of the process of scientific inquiry.
Students will apply the following to inquiry learning practices:
a. Scientists use a common language with precise definitions of terms to make it easier to communicate their observations to each other.
b. In doing science, it is often helpful to work as a team. All team members should reach their own individual conclusions and share their understandings with other members of the team in order to develop a consensus.
c. Tools such as thermometers, rulers and balances often give more information about things than can be obtained by just observing things without help.
d. Much can be learned about plants and animals by observing them closely, but care must be taken to know the needs of living things and how to provide for them. Advantage can be taken of classroom pets.
S2E1 Students will understand that stars have different sizes, brightness, and patterns.
a. Describe the physical attributes of stars—size, brightness, and patterns.
S2E2 Students will investigate the position of sun and moon to show patterns throughout the year.
a. Investigate the position of the sun in relation to a fixed object on earth at various times of the day.
b. Determine how the shadows change through the day by making a shadow stick or using a sundial.
c. Relate the length of the day and night to the change in seasons (for example: Days are longer than the night in the summer.)
d. Use observations and charts to record the shape of the moon for a period of time.
S2E3 Students will observe and record changes in their surroundings and infer the causes of the changes.
a. Recognize effects that occur in a specific area caused by weather, plants, animals, and/or people.
S2L1 Students will investigate the life cycles of different living organisms.
a. Determine the sequence of the life cycle of common animals in your area: a mammal such as a cat or dog or classroom pet, a bird such as a chicken, an amphibian such as a frog, and an insect such as a butterfly.
b. Relate seasonal changes to observations of how a tree changes throughout a school year.
c. Investigate the life cycle of a plant by growing a plant from a seed and by recording changes over a period of time.
d. Identify fungi (mushrooms) as living organisms.
S2P1 Students will investigate the properties of matter and changes that occur in objects.
a. Identify the three common states of matter as solid, liquid, or gas.
b. Investigate changes in objects by tearing, dissolving, melting, squeezing, etc.
S2P2 Students will identify sources of energy and how the energy is used.
a. Identify sources of light energy, heat energy, and energy of motion.
b. Describe how light, heat, and motion energy are used.
S2P3 Students will demonstrate changes in speed and direction using pushes and pulls.
a. Demonstrate how pushing and pulling an object affects the motion of the object.
b. Demonstrate the effects of changes of speed on an object.
a. Raise questions about the world around them and be willing to seek answers to some of the questions by making careful observations and measurements and trying to figure things out.
S2CS2 Students will have the computation and estimation skills necessary for analyzing data and following scientific explanations.
a. Use whole numbers in ordering, counting, identifying, measuring, and describing things and experiences.
b. Readily give the sums and differences of single-digit numbers in ordinary, practical contexts and judge the reasonableness of the answer.
c. Give rough estimates of numerical answers to problems before doing them formally.
d. Make quantitative estimates of familiar lengths, weights, and time intervals, and check them by measuring.
S2CS3 Students will use tools and instruments for observing, measuring, and manipulating objects in scientific activities.
a. Use ordinary hand tools and instruments to construct, measure, and look at objects.
b. Assemble, describe, take apart, and reassemble constructions using interlocking blocks, erector sets and other things.
c. Make something that can actually be used to perform a task, using paper, cardboard, wood, plastic, metal, or existing objects.
S2CS4 Students will use the ideas of system, model, change, and scale in exploring scientific and technological matters.
a. Identify the parts of things, such as toys or tools, and identify what things can do when put together that they could not do otherwise.
b. Use a model—such as a toy or a picture—to describe a feature of the primary thing.
c. Describe changes in the size, weight, color, or movement of things, and note which of their other qualities remain the same during a specific change.
d. Compare very different sizes, weights, ages (baby/adult), and speeds (fast/slow) of both human made and natural things.
S2CS5 Students will communicate scientific ideas and activities clearly.
a. Describe and compare things in terms of number, shape, texture, size, weight, color, and motion.
b. Draw pictures (grade level appropriate) that correctly portray features of the thing being described.
c. Use simple pictographs and bar graphs to communicate data.
S2CS6 Students will be familiar with the character of scientific knowledge and how it is achieved.
Students will recognize that:
a. When a science investigation is done the way it was done before, we expect to get a similar result.
b. Science involves collecting data and testing hypotheses.
c. Scientists often repeat experiments multiple times and subject their ideas to criticism by other scientists who may disagree with them and do further tests.
d. All different kinds of people can be and are scientists.
S2CS7 Students will understand important features of the process of scientific inquiry.
Students will apply the following to inquiry learning practices:
a. Scientists use a common language with precise definitions of terms to make it easier to communicate their observations to each other.
b. In doing science, it is often helpful to work as a team. All team members should reach their own individual conclusions and share their understandings with other members of the team in order to develop a consensus.
c. Tools such as thermometers, rulers and balances often give more information about things than can be obtained by just observing things without help.
d. Much can be learned about plants and animals by observing them closely, but care must be taken to know the needs of living things and how to provide for them. Advantage can be taken of classroom pets.
S2E1 Students will understand that stars have different sizes, brightness, and patterns.
a. Describe the physical attributes of stars—size, brightness, and patterns.
S2E2 Students will investigate the position of sun and moon to show patterns throughout the year.
a. Investigate the position of the sun in relation to a fixed object on earth at various times of the day.
b. Determine how the shadows change through the day by making a shadow stick or using a sundial.
c. Relate the length of the day and night to the change in seasons (for example: Days are longer than the night in the summer.)
d. Use observations and charts to record the shape of the moon for a period of time.
S2E3 Students will observe and record changes in their surroundings and infer the causes of the changes.
a. Recognize effects that occur in a specific area caused by weather, plants, animals, and/or people.
S2L1 Students will investigate the life cycles of different living organisms.
a. Determine the sequence of the life cycle of common animals in your area: a mammal such as a cat or dog or classroom pet, a bird such as a chicken, an amphibian such as a frog, and an insect such as a butterfly.
b. Relate seasonal changes to observations of how a tree changes throughout a school year.
c. Investigate the life cycle of a plant by growing a plant from a seed and by recording changes over a period of time.
d. Identify fungi (mushrooms) as living organisms.
S2P1 Students will investigate the properties of matter and changes that occur in objects.
a. Identify the three common states of matter as solid, liquid, or gas.
b. Investigate changes in objects by tearing, dissolving, melting, squeezing, etc.
S2P2 Students will identify sources of energy and how the energy is used.
a. Identify sources of light energy, heat energy, and energy of motion.
b. Describe how light, heat, and motion energy are used.
S2P3 Students will demonstrate changes in speed and direction using pushes and pulls.
a. Demonstrate how pushing and pulling an object affects the motion of the object.
b. Demonstrate the effects of changes of speed on an object.