Access Point #: SC.2.N.1.Su.1

Answer yes and no questions and make observations about common objects and actions in the natural world.
General Information
Number: SC.2.N.1.Su.1
Category: Supported
Date Adopted or Revised: 02/08
Big Idea: The Practice of Science

A: Scientific inquiry is a multifaceted activity; The processes of science include the formulation of scientifically investigable questions, construction of investigations into those questions, the collection of appropriate data, the evaluation of the meaning of those data, and the communication of this evaluation.

B: The processes of science frequently do not correspond to the traditional portrayal of "the scientific method."

C: Scientific argumentation is a necessary part of scientific inquiry and plays an important role in the generation and validation of scientific knowledge.

D: Scientific knowledge is based on observation and inference; it is important to recognize that these are very different things. Not only does science require creativity in its methods and processes, but also in its questions and explanations.

Related Benchmarks

This access point is an alternate version of the following benchmark(s).

Related Courses

This access point is part of these courses.
5020030: Science - Grade Two
5010043: Language Arts - Grade Two
7720030: Access Science Grade 2
7710013: Access Language Arts - Grade 2
5011020: Library Skills/Information Literacy Grade 2
5020090: STEM Lab Grade 2

Related Resources

Vetted resources educators can use to teach the concepts and skills in this access point.

Lesson Plans

Butterfly Life Cycle:

In this lesson, students will explore the life cycle of the butterfly through different centers and observation of a living butterfly going through its life cycle.

Type: Lesson Plan

Float or Sink?:

This lesson builds on lessons regarding the different properties of solids by having students explore how different objects float or sink when placed in water.

Type: Lesson Plan

Properties of Solids:

This lesson (intended to be used with other sorting lessons) allows students to understand the basic concepts of matter and properties of solids. This lesson involves the creation of a vocabulary chart with a child-friendly definition of matter and a Thinking Map with the varying properties of solids that students can use to sort different objects. Students explore two different objects and record their observations about the objects' properties.

Type: Lesson Plan

Teaching Idea


Students will explore and measure shadows and their relationships to time of day. Students will measure the lengths of a meter stick's shadow at different times of the day (or seasons) to determine when a shadow casts its longest and shortest shadows.

Type: Teaching Idea

Unit/Lesson Sequences

Matter: Solids:

In this unit, properties of matter are introduced and solids are explored. Exposure to the engineering design process synthesizes information learned about solids and asks students to create a homemade play dough recipe.

Type: Unit/Lesson Sequence

Parts of the Human Body:

In this unit, students explore the major parts of the body in different stations. An engineering design process lesson allows students to design and construct a helmet that protects the "main computer" for your body: the brain.

Type: Unit/Lesson Sequence

Rock Composition and Classification:

In this unit, the class is introduced to how rocks are formed, where they come from, and the many shapes and sizes that they are found. A class rock collection is made from samples collected around the school and a final lab shows the concept of erosion through rock "shakers."

Type: Unit/Lesson Sequence

Soil Composition and Classification:

This unit builds on the previous lessons about rocks to explore soil. Different types of soil samples are observed, classified by various attributes, and manipulated by adding water. Finally, the "Cement" lesson involves synthesis of information learned from previous lessons in an engineering design lab that asks students to build a wall from their own mortar mixture creation that will withstand the force of a rolling ball.

Type: Unit/Lesson Sequence

Weather Measure:

In this unit, students learn about meteorology and act as meteorologists, predict and take temperature measurements, and create a severe weather preparedness plan.

Type: Unit/Lesson Sequence

How do Objects Move | Engineering Design Challenge:

In this unit, students explore and explain the many different ways that an object moves and how its properties affect its movements. In one lesson ("In What Ways"), students predict and test their predictions on how different objects will move when gently pushed on their desks. In "Do All Tops Spin Alike?," students use different materials to construct their own tops and test its movements. "Making Objects Move" introduces the concept of acceleration and allows students to use different sizes and types of balls and other materials to build tracks that will be used to stop the ball at a certain location. "Playground Equipment" gives an engineering experience by engaging students in a competition with a given scenario and asking them to design, test, and re-design (if necessary) a functioning piece of new playground equipment (the terms "force," "motion," "gravity," and "simple machine" are introduced).

Type: Unit/Lesson Sequence

What Makes Objects Move?:

In this unit, students use different objects and observations to explore what factors influence an objects' motion.

Type: Unit/Lesson Sequence

Student Resources

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Parent Resources

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