1. I can name the steps of the scientific method, in order.
Structure & Transformation
I can name the steps of the scientific method, in order.

2. I can use the scientific method to create an original experiment.
Structure & Transformation
I can use the scientific method to create an original experiment.

3. Structure & Transformation
I can analyze a previous experiment to determine if it was done correctly.

4. Structure & Transformation
I can write a lab report to communicate the steps and results of an experiment.

5. I can identify the parts of an atom.
Structure & Transformation
I can identify the parts of an atom.

6. Structure & Transformation
I can identify the electron as the part of the atom that allows two or more atoms to combine.

7. I can identify an element.
Structure & Transformation
I can identify an element.

8. I can identify a compound.
Structure & Transformation
I can identify a compound.

9. I can distinguish between elements and compounds.
Structure & Transformation
I can distinguish between elements and compounds.

10. I can name common elements and compounds used in everyday life.
Structure & Transformation
I can name common elements and compounds used in everyday life.

11. Structure & Transformation
I can predict how different factors will affect how fast chemicals react together.

12. I can classify elements according to their properties.
Structure & Transformation
I can classify elements according to their properties.

13. I can identify physical changes.
Structure & Transformation
I can identify physical changes.

14. I can identify chemical changes.
Structure & Transformation
I can identify chemical changes.

15. I can distinguish between physical and chemical changes.
Structure & Transformation
I can distinguish between physical and chemical changes.

16. Structure & Transformation
I can name several compounds that can break down under chemical changes.

17. I can describe how some elements combine to form compounds.
Structure & Transformation
I can describe how some elements combine to form compounds.

18. Structure & Transformation
I can explain how compounds are different than the elements that form them.

19. I can demonstrate how mass is conserved during a chemical change.
Structure & Transformation
I can demonstrate how mass is conserved during a chemical change.

20. I can describe matter’s physical properties.
Structure & Transformation
I can describe matter’s physical properties.

21. I can describe matter’s chemical properties.
Structure & Transformation
I can describe matter’s chemical properties.

22. I can describe the properties of solids, liquids and gases.
Structure & Transformation
I can describe the properties of solids, liquids and gases.

23. I can describe the relationship between mass and inertia.
Motion & Forces
I can describe the relationship between mass and inertia.

24. I can state and give real life examples of Newton’s laws of motion.
Motion & Forces
I can state and give real life examples of Newton’s laws of motion.

25. I can distinguish between balanced and unbalanced forces.
Motion & Forces
I can distinguish between balanced and unbalanced forces.

26. Motion & Forces
I can estimate the amount of gravity between objects and by observing their masses and the distance between them.

27. Motion & Forces
I can design a scientific investigation that explores the position, speed and motion of objects using appropriate tools and technology.

28. I can interpret the movement of an object based on graphed data.
Motion & Forces
I can interpret the movement of an object based on graphed data.

29. I can calculate the amount of work done on an object by using the formula W=F x d

30. I can distinguish between gravity and magnetism.
Motion & Forces
I can distinguish between gravity and magnetism.

31. I can describe the difference between mass and weight.
Motion & Forces
I can describe the difference between mass and weight.

32. I can predict the effects of gravity on various objects.
Motion & Forces
I can predict the effects of gravity on various objects.

33. The Earth and the Universe
I can explain how gravity and inertia combine to keep objects in orbit.

34. I can describe the pattern of the tides.
The Earth and the Universe
I can describe the pattern of the tides.

35. The Earth and the Universe
I can explain how the position of the sun, moon and Earth affect the tides.

36. I can identify the phases of the moon.
The Earth and the Universe
I can identify the phases of the moon.

37. The Earth and the Universe
I can explain how the position of the sun, moon and Earth produce moon phases.

38. I can describe a solar eclipse.
The Earth and the Universe
I can describe a solar eclipse.

39. I can describe a lunar eclipse.
The Earth and the Universe
I can describe a lunar eclipse.

40. The Earth and the Universe
I can explain how the position of the sun, moon and Earth produce eclipses (solar and lunar).

41. I can describe our solar systems place in the Milky Way Galaxy.
The Earth and the Universe
I can describe our solar systems place in the Milky Way Galaxy.

42. I can apply the laws of motion to the movement of satellites.
The Earth and the Universe
I can apply the laws of motion to the movement of satellites.

43. I can identify the composition of the Earth’s atmosphere.
The Earth and the Universe
I can identify the composition of the Earth’s atmosphere.

44. I can identify the layers of the Earth’s atmosphere.
The Earth and the Universe
I can identify the layers of the Earth’s atmosphere.

45. The Earth and the Universe
I can predict how uneven heating of the earth’s surface effects wind movement.

46. I can use data to predict changes in the atmosphere.
The Earth and the Universe
I can use data to predict changes in the atmosphere.

47. I can describe how heat is transferred through conduction.
The Earth and the Universe
I can describe how heat is transferred through conduction.

48. I can describe how heat is transferred through convection.
The Earth and the Universe
I can describe how heat is transferred through convection.

49. I can describe how heat is transferred through radiation.
The Earth and the Universe
I can describe how heat is transferred through radiation.

50. The Earth and the Universe
I can explain how heat from the Earth’s surface is transferred to the atmosphere.

51. The Earth and the Universe
I can identify and describe the layers of the Earth by their physical properties.

52. The Earth and the Universe
I can identify and describe the layers of the Earth by what they are made of.

53. I can define tectonic plate.
The Earth and the Universe
I can define tectonic plate.

54. I can describe the theory of continental drift.
The Earth and the Universe
I can describe the theory of continental drift.

55. I can describe a convergent boundary.
The Earth and the Universe
I can describe a convergent boundary.

56. I can describe a divergent boundary.
The Earth and the Universe
I can describe a divergent boundary.

57. I can describe a transform boundary.
The Earth and the Universe
I can describe a transform boundary.

58. The Earth and the Universe
I can explain how movement in the Earth’s mantle results in the motion of the lithospheric plates.

59. The Earth and the Universe
I can explain how the changes we see today are similar to those that occurred in the past.

60. The Earth and the Universe
I can use data to explain the layers of the Earth based on evidence obtained from earthquakes and volcanic activity.

61. The Earth and the Universe
I can predict how the Earth’s surface will change at the different types of lithospheric plate boundaries.

62. The Earth and the Universe
I can describe how moving water shapes the surface of the Earth by the process of erosion.

63. The Earth and the Universe
I can predict the short and long term impact on living organisms because of changes in the Earth’s surface.

64. Unity & Diversity
I can define genes.

65. I can identify where genes are located.
Unity & Diversity
I can identify where genes are located.

66. Unity & Diversity
I can relate how genes carry hereditary information from one generation to another.

67. I can distinguish between learned and inherited traits.
Unity & Diversity
I can distinguish between learned and inherited traits.

68. I can describe and model the structure of DNA.
Unity & Diversity
I can describe and model the structure of DNA.

69. I can define a punnett square.
Unity & Diversity
I can define a punnett square.

70. Unity & Diversity
I can predict the possible outcomes of inheritance through the use of Punnett squares.

71. I can use a pedigree to interpret data.
Unity & Diversity
I can use a pedigree to interpret data.

72. Unity & Diversity
I can compare similarities among people from different geographical cultures.

73. Unity & Diversity
I can understand that experiments involving living things must respect potential risks to their health.

74. Unity & Diversity
I can defend my opinion about ethical decisions involving humans and other organisms.

75. I can describe sexual reproduction.
Unity & Diversity
I can describe sexual reproduction.

76. I can describe asexual reproduction.
Unity & Diversity
I can describe asexual reproduction.

77. I can compare and contrast sexual and asexual reproduction.
Unity & Diversity
I can compare and contrast sexual and asexual reproduction.

78. Unity & Diversity
I can describe how sexual reproduction creates variations among offspring.

79. I can explain how sex cells carry genetic information.
Unity & Diversity
I can explain how sex cells carry genetic information.

80. Biological Change
I can relate information to past life forms and the environments they lived in.

81. Biological Change
I can explain how species that depend on each other can also become extinct.

82. Biological Change
I can explain how organisms that cannot adapt to changes in the environment may become extinct.

83. Biological Change
I can use evidence from the fossil record to show that organisms change slowly over time, resulting in diversity of life.

84. I can explain the law of superposition.
Biological Change
I can explain the law of superposition.

85. I can recognize exceptions to the law of superposition.
Biological Change
I can recognize exceptions to the law of superposition.

86. I can identify the different forms of energy.
Energy Transformations
I can identify the different forms of energy.

87. I can describe real life examples of different forms of energy.
Energy Transformations
I can describe real life examples of different forms of energy.

88. Energy Transformations
I can explain the law of conservation of energy and how it applies in various situations.

89. I can explain how heat energy transfers.
Energy Transformations
I can explain how heat energy transfers.

90. Energy Transformations
I can understand the differences of kinetic energy in the molecules of a solid, liquid and gas.

91. Energy Transformations
I can describe several examples of the transfer and transformation of energy.

92. I can model and explain the flow of energy in ecosystems.
Energy Transformations
I can model and explain the flow of energy in ecosystems.

93. Energy Transformations
I can understand that in most situations systems move toward stability and remain that way.

94. Energy Transformations
I can describe how energy flows through an ecosystem by analyzing food chains, food webs and energy pyramids.

95. I can explain how the sun is the major source of energy.
Energy Transformations
I can explain how the sun is the major source of energy.

96. I can describe the process of photosynthesis.
Energy Transformations
I can describe the process of photosynthesis.

97. Energy Transformations
I can interpret data showing how organisms in a food chain or food web affect each other.

98. Interdependence
I can explain the difference between biotic and abiotic factors in an ecosystem.

99. Interdependence
I can explain how competitions for limited resources can result in extinction even if environmental conditions remain the same.

100. Interdependence
I can understand how the population of an organism can increase, decrease or remain the same based on available biotic and abiotic factors.

101. Interdependence
I can evaluate the consequences of the introduction of a non-native species to an established ecosystem.

102. Interdependence
I can identify potential factors that could cause the endangerment or extinctions of an organism.

103. I can identify one or more species that have become extinct.
Interdependence
I can identify one or more species that have become extinct.

104. Interdependence
I can design an investigation that shows the results of a change in a biotic or abiotic factor in an ecosystem.

105. Interdependence
I can understand that compromise does not always lead to desirable outcomes for everyone.

106. Interdependence
I can research and discuss the pros and cons of things that have an impact on the environment.

107. Energy Transformations
I can understand the sun is the major external source of energy on Earth.

108. Energy Transformations
I can understand that energy from inside the Earth can cause volcanic eruptions and plate tectonic movement.

109. I can explain how the sun affects various Earth systems.
Energy Transformations
I can explain how the sun affects various Earth systems.

110. I can describe how waves are one way energy is transferred.
Energy Transformations
I can describe how waves are one way energy is transferred.

111. I can list different types of waves.
Energy Transformations
I can list different types of waves.

112. I can name and identify real world examples of energy.
Energy Transformations
I can name and identify real world examples of energy.

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