Grade: 4
Math:
Vocabulary: place value, standard form, expanded form, word form, period, digit,
estimate, front-end estimation, compare, change/making change, round,
table, organized list,
Properties of addition and multiplication: commutative, associative, one/identity, zero, distributive.
addends, missing addends, related facts, sum, difference,
compatible numbers, product, factors, array, partial products,
elapsed time, a.m, p.m., compensation, half-way
Chapter 1: Place Value Through Millions
(Text p. 35-66)
Chapter 2: Addition and Subtraction Concepts
(Text p. 67-90)
Chapter 3: Addition and Subtraction
(Text p. 95-122)
Chapter 4: Multiplication
(Text p. 125-162)
Chapter 5: Dividing by One Digit
(Text pgs. 165-170)
Science:
Unit-E: MATTER
Chapter 10: Properties of Matter
VOCABULARY: area buoyancy density gas length liquid mass matter metric system
solid volume weight newtons balance landfill recycle reuse reduce
grams kilograms centimeter millimeter kilometer predict infer
scientific method observation question hypothesis experiment
conclusion
Lesson 1: Matter(pgs. e4-e13)
-How can matter be described and identified?
-Know and describe the three states of matter.
-What are the four characteristics of matter?
-What happens to matter we use?
Lesson 2: Measuring Matter (pgs. e14-e23)
-How can you measure matter? -How can volume be measured?
-How can weight be measured? -How would you define density?
-Why is it important to set standards of measurements?
Chapter 11: Changes of Matter (pgs. e30-e59)
Vocabulary: element atom mixture filter evaporation compound physical change
chemical change periodic table classify
Lesson 3: What matter is made of? (p. e30-e39)
-How is matter classified? -What are elements? -How are elements named?
-What happens when elements mix? -How can mixtures be separated?
-How are compounds and mixtures alike and different?
-What are some real life mixtures?
Unit-F: Energy
Chapter 12: Forms of Energy
Vocabulary: speed force friction inertia work energy frame of reference
potential energy kinetic energy simple machine load effort force
efficiency compound machine
Lesson 1: Motion, Forces, and Energy, pgs. f4-f17
-How can you tell something is moving? -How do you calculate speed?
-How do forces affect motion? -Compare friction and inertia.
-How is weight related to gravity?
-How is force related to work? -What are different forms of energy?
-How can energy change forms?
Lesson 2: Energy and Tools, pgs. f18-f31
-How does a pulley work? -What are the six simple machines?
-How do levers work? -How do wheels and axles work?
-How do inclined planes work? -How do wedges and screws work?
-Compare simple machines and compound machines.
