Mr. Wolfe's Site
Physical Science Tuesday January 2
Literature Keystones
Objective:
-Students will be able to explain that an object is moving if it changes position relative to some object that is not moving.
-Students will understand the formula for calculating speed, distance or time
-Students will understand how to correctly label speed, distance or time
Procedure:
Bellringer-Explain one way you can apply your understanding of increasing or reducing friction to a snowy weather
-Begin Chapter 13, reading pages 271-273
- Notes on Section 13-1
-Worksheet on 13-1 and Section Questions page 273
Essential Question(s)
How is speed calculated?
What is the difference between average speed and instantaneous speed?
Vocabulary
Tier 1: distance, time, object, units, rest, direction, average
Tier 2: speed, motion, instantaneous, velocity, force, mass,
Tier 3: acceleration, momentum, law of conservation of momentum, inertia, Newton
Materials:
-textbook, textbooks, pencils
Formative Assessments for this unit: Bell ringers, exit slips, problems up at chalkboard, practice problems on paper, verbal question and answers in class, practice quiz on Chapter 13
Summative Assessments for this unit: Chapter 13 quizzes (two), Chapter Worksheets, worksheets with velocity problems, worksheets with acceleration problems, book questions
Standards taught during this segment of the course
3.4-C
Homework-Finish Worksheet and Section Questions
Physical Science Wednesday January 3
Literature Keystone
Objective:
-Students will be able to explain that an object is moving if it changes position relative to some object that is not moving.
-Students will understand the formula for calculating speed, distance or time
-Students will understand how to correctly label speed, distance or time
Student Friendly Learning Targets:
I will be able to calculate velocity, distance or time using the velocity formula
I will be able to correctly label velocity, distance and time.
I will be able to explain the difference between average speed and instantaneous speed.
Procedure:
Bellringer-What is the formula and units used to determine the speed of an object?
-Go over homework aloud with students
-Triangle method, algebraic method of solving velocity problems
-Students will work on velocity problems, showing work and labeling properly
Essential Question(s)
How is speed calculated?
What is the difference between average speed and instantaneous speed?
Vocabulary
Tier 1: distance, time, object, units, rest, direction, average
Tier 2: speed, motion, instantaneous, velocity, force, mass,
Tier 3: acceleration, momentum, law of conservation of momentum, inertia, Newton
Materials:
-Worksheets, pencils, calculators
Standards taught during this segment of the course
3.4-C
Formative Assessments for this unit: Bell ringers, exit slips, problems up at chalkboard, practice problems on paper, verbal question and answers in class, practice quiz on Chapter 13
Summative Assessments for this unit: Chapter 13 quizzes (two), Chapter Worksheets, worksheets with velocity problems, worksheets with acceleration problems, book questions
Homework-Finish Worksheet on Velocity
Physical Science Thursday January 4
Biology Keystone Exams Day 2
Objective:
-Students will be able to explain that an object is moving if it changes position relative to some object that is not moving.
-Students will understand the formula for calculating speed, distance or time
-Students will understand how to correctly label speed, distance or time
Student Friendly Learning Targets:
I will be able to calculate velocity, distance or time using the velocity formula
I will be able to correctly label velocity, distance and time.
I will be able to explain the difference between average speed and instantaneous speed.
Procedure:
Bellringer- Looking at Figure 13-4 on page 273, what was the car doing between hour 2 and 3 and how did you determine your answer?
-Students will work on worksheet that begins with “If a bus were traveling”.
-Go over worksheet on smart board from last night
Essential Question(s)
How is speed calculated?
What is the difference between average speed and instantaneous speed?
How is acceleration calculated?
Vocabulary
Tier 1: distance, time, object, units, rest, direction, average
Tier 2: speed, motion, instantaneous, velocity, force, mass,
Tier 3: acceleration, momentum, law of conservation of momentum, inertia, Newton
Materials:
-pens, pencils, books, notes, worksheets, calculators, stop watches, graph paper, rulers
Standards taught during this segment of the course
3.4-C
Formative Assessments for this unit: Bell ringers, exit slips, problems up at chalkboard, practice problems on paper, verbal question and answers in class, practice quiz on Chapter 13
Summative Assessments for this unit: Chapter 13 quizzes (two), Chapter Worksheets, worksheets with velocity problems, worksheets with acceleration problems, book questions
Homework-none
Physical Science Friday January 5
Objective:
-Students will understand how to calculate the acceleration of a moving object
-Students will understand how to correctly label acceleration, velocity and time
-Students will practice solving problems on acceleration
Student Friendly Learning Targets:
I will be able to calculate acceleration, final velocity, initial velocity or time using the acceleration formula
I will be able to correctly label velocity, distance time and acceleration.
Procedure:
Bellringer- What is the definition of acceleration
-Read Acceleration pages 274-275
-Discussion about Acceleration and how to use formula to calculate
-Notes on 13-2
-Students will do problems on Acceleration worksheet that has “grasshopper” on front, “motorcycle” on back.
-We will go over answers on the smartboard
Essential Question(s)
How is speed calculated?
What is the difference between average speed and instantaneous speed?
How is acceleration calculated?
Vocabulary
Tier 1: distance, time, object, units, rest, direction, average
Tier 2: speed, motion, instantaneous, velocity, force, mass,
Tier 3: acceleration, momentum, law of conservation of momentum, inertia, Newton
Materials:
-worksheets, calculators, pens, pencils, calculators, stop watches, graph paper, rulers
Standards taught during this segment of the course
3.4-C
Formative Assessments for this unit: Bell ringers, exit slips, problems up at chalkboard, practice problems on paper, verbal question and answers in class, practice quiz on Chapter 13
Summative Assessments for this unit: Chapter 13 quizzes (two), Chapter Worksheets, worksheets with velocity problems, worksheets with acceleration problems, book questions
Homework-None
