Differentiating instruction
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Transcript of Differentiating instruction
Differentiating Instruction
Shaylynn Curtis, Michelle Jones, Sarah Porter, Veronica Vande Kamp
MTE/533Sylvia Hill
September 29, 2014
Differentiated Instruction
Differentiation means tailoring instruction to meetindividual needs. Whether teachers differentiate content,process, products, or the learning environment, the use ofongoing assessment and flexible grouping makes this asuccessful approach to instruction (Tomlinson, 2014).
Four Trends in Differentiating instruction for science
Flexibility grouping
Students in the science classroom benefit frominteracting with each other and working toward acommon goal. An example of a goal in science is thecompletion of a laboratory exercise. The teacher maypresent a concept to the class, then put the studentsinto pairs or small groups. Changing up the groupsshould happen often based on student interests,student learning style, or whatever factors that maycome into play (Willoughby, 2014).
Four Trends in Differentiating instruction for science
Role play
Students with a variety of interests, learning
styles, and abilities can benefit greatly from
activities that are based on authentic situations.
The teacher can create lesson plans around
debates, computer simulations, or science topics
currently in the news (Willoughby, 2014).
Four Trends in Differentiating instruction for science
Learning Stations
The teacher can create spaces around the classroomfor small-group or independent investigation of ascientific experiment or process. The essentialmaterials and resources should be available at eachspace in the classroom. There should be a topic ateach space that correlates with the focus of the study.The activities at each space should encourage thinkingskills and help students to solve problems(Willoughby, 2014).
Four Trends in Differentiating instruction for science
Orbital studies
Orbital studies is when the teacher develops a list oftopics that is related to a science concept. The teacherallows the students to select a topic that is of interestto them. Each student performs their owninvestigation with help from the teacher. This type ofactivity provides flexibility, level of difficulty, and themakeup of the product completed by the student(Willoughby, 2014).
Four Trends in Differentiating instruction for math
Student Grouping
- Students are placed in groups according to proficiency.
- Allows teachers to challenge high-achievers, while providing remediation, repetition, and review for low achievers (Davis, 2009).
- Provides specific instruction to a few students who are seen as very high achieving, and sometimes to provide more individualized assistance to students who are seen to be achieving significantly below their peers (Davis, 2009).
Four Trends in Differentiating instruction for math
Learning Centers
- Classroom learning centers are important part of independent exploration and learning (Springer, 2011).
- Math learning centers provide an opportunity to practice and apply skills and strategies taught within the classroom (K-5 Math Teaching Resources, 2010).
- Math learning centers should include: a variety of activities differentiated to meet the needs of students, hold students accountable for the work in which they are engaged, and allows teachers to assess students math skills, strategies, and understanding (K-5 Math Teaching Resources, 2010).
Four Trends in Differentiating instruction for math
Use of manipulatives
- Manipulatives help students make the leap from intuitive to logical thinking, from concrete to the abstract ( Learning Resources.com)
- Manipulatives are helpful for problem solving skills.
Four Trends in Differentiating instruction for math
Increased use of technology
- Apply technology to develop students higher-order-thinking skills and creativity (Jahan, 2014).
- Use technology resources to collect and analyze data, interpret results, and communicate findings to improve instructional practices and maximize student learning (Jahan, 2014).
Instructional Issues With Trends for Science
Role Play
Requires careful, thoughtful planning which is time consuming.
Students must be highly interested and motivated in their topic; otherwise they will not be actively involved.
Expectations for students must be clear and students must be held accountable for their research, preparation, and collaboration with peers; otherwise they will not understand the purpose of the activity.
Learning Stations
Students might skip stations if they already know the material or if the materials is too difficult.
Some stations might have task designed for advanced students only.
Instructional Issues With Trends for Science
Orbital Studies
May be too difficult or complex for some students. Teachers must provide varying levels of difficulty for these activities.
Flexible Grouping
Students may not like working with the students they are grouped with.
If students are grouped based on ability, the students with lower abilities will not benefit from their grouping.
Instructional Issues With Trends For Mathematics
Student Grouping Group work consumes more time because students must coordinate time,
meet, correspond, make decisions, and integrate the contributions of each team member.
Some students lose motivation during group work because of free riding, social loafing, and conflict with other group members.
Allocating time for group work, assessing teamwork skills and group dynamics, and assigning group grades can be difficult for teachers.
Learning Centers Learning Centers require a great deal of planning because teachers must be
able to articulate key skills being learned at each center and to evaluate the success of that learning center in promoting key skill development.
Learning Centers may be too difficult or too easy for some students.
Instructional Issues With Trends For Mathematics
Use of Manipulatives Some teachers do not know when and how to use the manipulatives.
Therefore, their students fail to achieve success with them.
Students can be easily distracted with manipulatives if rules and procedures are not put in place when using them.
Increased use of Technology New software, training for teachers, and equipment can be very costly for
schools.
Teachers need to receive training with the technology so they understand the benefits to learning and to themselves.
Adding technology into existing lesson plans takes additional planning time.
Some software requires a significant amount of classroom time to be utilized.
Whether the trend can be used for math, science, or both
Trend: Flexibility Grouping of students
- This trend can be used successfully in any subject. In both math and science, students can work collaboratively in groups to reach common goals. Depending on the activity, teachers can use flexibility grouping in a variety of ways. Students can be grouped by ability or differentiate groups.
Trend: Learning Stations (centers)
- This trend can be used in both math and science. In math, learning stations can provide a way for teachers to differentiate instruction. In science, learning stations can provide a way for students to learn material in a variety of ways. For example, if students are learning about weather. Stations could be set up for students to learn about different areas of weather.
Whether the trend can be used for math, science, or both
Trend: Role play
- Role play can be used in science and math. It is commonly used in other subjects, but rarely used in math. Role playing can be used in science when students debate issues. It can be used in math by students solving real world problems that involve math. It can be difficult for some students to be motivated by this trend.
Trend: Orbital Studies
- Orbital studies can be used in both subjects, however, it is easier in science. It is easier for students to learn and research different areas in science. Math is a harder subject to include orbital studies. Students could chose a math mathematician to research and present to the class.
Whether the trend can be used for math, science, or both
Trend: use of manipulatives
- This trend is commonly used in both math and science. Students in math use manipulatives to help them learn math concepts. Students use base ten blocks to help them add or see relationships between numbers. While in science, students use science manipulatives to explore and construct their own ideas through trial and error in experiments.
Trend: Technology
- The trend of technology is commonly used in math and science. Teachers use technology to help students practice math facts and to explore new concepts in science. Many teachers incorporate the use of smart boards, Ipads, and other forms of technology into their daily lessons.
Math Manipulatives Lesson Plan
Grades: 1
Subject: Math
Estimated Time Duration: 30 minutes
Lesson Summary: Students will use manipulatives (such as currency, pennies, nickels, dimes, and quarters) to learn how to count and add money correctly. This lesson teaches students to add coin currency correctly with the use of manipulatives.
Math Manipulatives Lesson Plan Continued
Instructions: Students will be given a ziplock bag containing a dollars amount of each coin; 100 pennies, 20 nickels, 10 dime, and 4 quarters. Students will then be given a worksheet where they are required to place the appropriate coin(s) in a box that has a desired currency amount.
27 Cents 12 Cents 34 Cents
52 Cents 96 Cents 44 Cents
19 Cents 63 Cents 7 Cents
Math Manipulatives Lesson Plan Continued
Materials: Ziplock bag containing a dollars amount of each coin; 100 pennies, 20 nickels, 10 dime, and 4 quarters, a worksheet, pencil and scratch paper.
Expansion: Students that are higher level achievers will be given a separate worksheet that focuses on subtracting currency.
Accommodations: Students that need accommodations will be provided assistance and a different worksheet that focuses on currency of 1-10 cents.
References
lAbout.com. (2014). Issues with Integrating Technology in the classroom. Retrieved from
http://712educators.about.com/od/technologyandeducation/tp/Issues-With-Integrating-Technology-In-The-Classroom.htm
lBJU Press. (2014). The Proper Use of Manipulatives in the Math Classroom. Retrieved from
https://www.bjupress.com/resources/articles/t2t/proper-use-of-manipulatives-in-math-classroom.php
Davis, H., (2009). Education.com. Ability Grouping. Retrieved from:
http://www.education.com/reference/article/ability-grouping/
lHowes, E. V., Cruz, B.C., (2009). Role-Playing in Science Education: An Effective Strategy for
Developing Multiple Perspectives. Journal of Elementary Science Education, Vol. 21, No. 3, pp. 33-46. Western Illinois University. Retrieved from http://files.eric.ed.gov/fulltext/EJ849719.pdf
References continued
Jahan, A., (2014). Differentiation Using Technology in Math Classrooms. Retrieved from:
http://www.tcea.org/handouts/2013/Speaker10494_Session1928_1.pdf
K-5 Math Teaching Resources, (2010). Math Centers. Retrieved from:
http://www.k-5mathteachingresources.com/math-centers.html
Learning Resources. Research on the Benefits of Manipulatives. Retrieved from:
http://www.learningresources.com/text/pdf/Mathresearch.pdf
lPbworks. (2014). Learning Stations. Retrieved from
http://2differentiate.pbworks.com/w/page/860074/Learning%20Stations
References continued
Springer, S., (2011). Eduaction.com. Learning Centers in the Classroom. Retrieved
from: http://www.education.com/reference/article/learning-centers/
lTeaching Excellence & Educational Motivation. (2014). What are the challenges of group work and how can I address them? Retrieved from
http://www.cmu.edu/teaching/designteach/design/instructionalstrategies/groupprojects/challenges.html
lUtah Education Network. (2014). Learning Centers. Retrieved from
http://www.uen.org/k-2educator/learning_centers.shtml
lWilloughby, J. (2014). Improving Science Education with Differentiated Instruction. Retrieved from
http://www.glencoe.com/sec/teachingtoday/subject/improving_science.phtml