When we start talking about lesson planning, in addition to discussing the "what" of teaching (curriculum) we have to think about the "how" -- instructional methods. This page describes several kinds of instructional strategies. Which ones do you think are most effective? What do you prefer to experience as a student?
Direct Instruction
In general usage, the term direct instruction refers to (1) instructional approaches that are structured, sequenced, and led by teachers, and/or (2) the presentation of academic content to students by teachers, such as in a lecture or demonstration. In other words, teachers are “directing” the instructional process or instruction is being “directed” at students.
The basic techniques of direct instruction not only extend beyond lecturing, presenting, or demonstrating, but many are considered to be foundational to effective teaching. For example:
Establishing learning objectives for lessons, activities, and projects, and then making sure that students understand the goals.
Purposefully organizing and sequencing a series of lessons, projects, and assignments that move students toward understanding and the achievement of specific academic goals.
Reviewing instructions for an activity or modeling a process—such as a scientific experiment—so that students know what they are expected to do.
Providing students with clear explanations, descriptions, and illustrations of the knowledge and skills being taught.
Asking questions to make sure of student understanding after a lesson.
As seen in Figure Two, teachers rarely use either direct instruction or some other teaching approach—in practice, diverse strategies are frequently blended together. For these reasons, negative perceptions of direct instruction likely result more from a widespread overreliance on the approach, and from the tendency to view it as an either/or option, rather than from its inherent value to the instructional process (Carnine, Silbert, Kameenui, & Tarver, 1997).
Drill and Practice
The drill and practice instructional strategy refers to small tasks, such as the memorization of spelling and vocabulary words, or the practicing of the multiplication tables repeatedly. As students, drill and practice instruction was probably a familiar memory throughout your schooling. It is used primarily for students to master fundamental materials through repetition. By today’s educational standards, drill and practice is considered outdated and often deemed ineffective as an instructional strategy. According to Jill Sunday Bartoli, “Having to spend long periods of time on repetitive tasks is a sign that learning is not taking place — that this is not a productive learning situation.” (Bartoli, 1989, p. 292)
Lecture
Lecture is a convenient instructional strategy. Material can be delivered efficiently since there are no interruptions from students. Lecture still allows the teacher to relate new material to other topics in the course, define and explain key terms, and relate material to students’ interests.
Lecture is an instructional strategy that places students in a passive role. Essentially the lecturer is the expert and the students are having knowledge poured into their brains. The material and presentation are solely the intellectual product of the teacher. Students sit silently at desks that face the lecturer.
Often lecture topics are not remembered well because retrieval pathways to memory have not been established by students actively participating in the instruction. Students have not taken the presented material and created their own interpreted meaning. The lecturer usually does not know if students understand the topic because there is no feedback from students (Lujan, H. & DiCarlo, S, 2006).
Question and Answer
The technique of question and answer allows the application of knowledge by students and offers a more reflective response. By asking questions, teachers are inviting brief responses from students, which incorporate their prior knowledge and some interpretation of that knowledge. This allows indications of whether students were listening and understand the material being presented. Questions serve both to motivate students to listen and to assess how much and how well they know the material. Incorporating this instructional approach allows both the teacher to ask students questions and students to ask the teacher questions, fostering a better understanding of the lesson (Paul & Elder, 2007).
Discussion
In this instructional strategy, the role of the teacher shifts to leading an exchange of ideas about a specific topic. The teacher is no longer the sole provider of the content as students gain a voice for their ideas and the research they have conducted. At times, the teacher may assign students individual concepts that they have to speak about during the discussion. Some control of what course the discussion takes devolves to students. All of the content planned for the lesson might not be discussed. In fact, after reflecting on the day’s discussion a teacher might have to begin the next day’s discussion on important content that had been overlooked or squeezed out of the lesson.
Teachers need to develop strategies so that the voices of all students are heard. In addition, for effective class discussions students need to listen to what their classmates are saying so the points made during the dialogue allow students to make sense of the new ideas. As the discussion takes place, time should be taken for the teacher or better yet, a student to summarize the important points (Brookfield & Preskill, 2012).
Mental modeling
When a person perceives how something works in the real world and then formalizes that thought process a mental model is created. Mental modeling is a student-centered pedagogical strategy that helps students to solve problems or make decisions. For example, a mathematics teacher verbally modeling the thought process she is using while solving a problem in front of the class is using mental modeling. When teachers model the process of thinking or doing, the strategy of mental modeling becomes clearer to students. Students may then explain their own mental models to learn the strategy and improve their use of it.
Mental modeling often starts with a question, for example: why does lake effect snow occur? “What if” questions are also good starting points, for example: What if gravity ceased entirely? Strategies used by teachers and students engaged in mental modeling include observation, asking questions, as well as location and analysis of information. The level of cognitive load in mental modeling is high making it a strategy that should be employed often.
Teachers are encouraged to help students select the right mental model and help students select relevant information to develop their model. Teachers should create or find problems, case studies, lab activities, and projects at the appropriate grade level for their students. For students to have success they need to possess the appropriate background knowledge and supports to develop an accurate mental model. Often students encounter more success when they focus on the process instead of the outcome (Hestenes, D, 2010).
Inquiry
When students investigate to answer a question about a particular topic, they are using inquiry or inquiry-based learning. When teachers use inquiry-based learning, students or teachers may identify questions, however in any case questions posed should be open ended. Inquiry learning may be experienced individually; but it is beneficial when students work with other students. Differing perspectives and varied resources are important to inquiry-based projects.
Providing responses to questions such as “Why is the sky blue?” demands high-order thinking skills from both the student and the teacher. Allowing students to explore a broad topic, and to choose questions in which they are invested creates the best environment for successful inquiry-based projects. Students benefit from learning and negotiating through group investigation in order to answer a question.
Teachers who wish to engage in inquiry-based learning set the stage for this process in three ways:
Assess students to determine their knowledge of the topic, and lay groundwork when that knowledge does not exist.
Match the scope of the inquiry question to the learning level of students.
Provide resources and/or provide internet search strategies for locating credible resources that will inform the inquiry.
The teacher’s role in inquiry-based learning is one of mentor and advisor. Students may struggle through problems; however, if the struggle occurs at a level that students may be successful, this struggle is worthwhile. The teacher’s most difficult role, in this case, is to resist answering questions that would inform the inquiry and therefore negate the process for the student!
Inquiry based learning requires time and patience; however this teaching strategy lays groundwork for real-world learning in which students will engage throughout their lives (Sharples, Collins, Feißt, Gaved, Mulholland, Paxton, & Wright, 2011).
Discovery Learning
“Discovery learning is a type of learning where learners construct their own knowledge by experimenting with a domain and inferring rules from the results of these experiments” (Van Joolingen, 2000, p.385).
In today’s educational realm, discovery learning is also called problem-based learning or experiential learning. Students participate through a hands-on approach and learning is interactive. Through discovery learning students are encouraged to explore with little guidance from the instructor. Discovery learning is based on the beliefs of Piaget (Ültanır, 2012), in which students are provided with a topic, and from that point students choose how they are going to learn, discover new information, synthesize the information and do so without correction from the teacher. The teacher does feed back to the student, as do the other members of the class, once the project is complete.
It is important that teachers create specific goals and guide students through discovery learning using pre-determined structures, for example, groupwork, fieldwork, or interaction with others. Unless this is the case, students may have too much freedom resulting in a lack of rigor within the method. However, Mayer (2004) states, “In many ways, guided discovery appears to offer the best method for promoting constructivist learning. The challenge of teaching by guided discovery is to know how much and what kind of guidance to provide and to know how to specify the desired outcome of learning.” (p.14)
Group work
In group work, students are assigned one or more partners to collaborate with on ideas in a strategy like think-pair-share or problem solving. Before students begin working, the teacher explains the objectives, expectations, and details of the activity or project. This explanation is meant to ensure all group members understand the goal of the group. As the group works together it is expected that all members teach and learn from each other. At the end of the group activity the teacher may debrief with groups or may provide a grade on a group artifact.
Students often need to be oriented on how to work effectively with their peers. Listening to group members’ ideas and not attaching self-worth to proposed ideas go a long way toward reaching the goals of the activity. Compromise is a skill that requires practice to be effective. Alignment of group activities with the Social and Emotional Learning (SEL) Benchmarks (New York State, 2018) provides a well-defined way to identify and advance the skills students need to be effective group members.
When engaging students in groupwork, teachers should circulate to monitor the groups’ progress toward accomplishing the objectives of the lesson. Asking groups what they are discussing and why that is important to the topic assists in reinforcing the idea that the group activity is educational. As teachers see group behavior that is not on-task, the teacher should not hesitate to address this with the group. This reinforces to all groups that students are individually accountable for their behavior in the group. They are not “lost in a crowd”. (Blatchford, Kutnick, Baines, & Galton, 2003).
Contributors and Attributions
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Foundations of Education. Authored by: SUNY Oneonta Education Department. License: CC BY: Attribution