Instructional Methods PDF

Summary

This document provides a comprehensive overview of various instructional methods and strategies, suitable for educational professionals. The material focuses on the theoretical underpinnings of pedagogical approaches. It includes different teaching techniques and their effectiveness.

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CHAPTER 2
INSTRUCTIONAL METHODS FOR TEACHING

Rationale

1. Teaching methods are the broader skills used to help students achieve learning
outcomes. Teaching methods help students to master the content of the course and learn
how to apply the content in particular contexts. It is a chines proverb that “A thousand
teachers, a thousand methods.”

Desired Learning Outcomes

2. After the completion of this module our respected teachers will be able to:
i. Understand the concept of instructional method and technique.
ii. Differentiate between instructional method and technique.
iii. Comprehend the importance of instructional method.
iv. Select appropriate teaching method according to the need of content, level
of the student, availability of time and availability of resources.
v. Implement different instructional methods required for teaching science.

Introduction
3. A instructional method refers to the set of step-by-step procedures used by the
teacher in guiding the learners to achieve learning objectives in an effective manner.
Before moving toward instructional methods and skills it is important to understand the
instructional framework. So in first section of the module a brief introduction of
instructional framework is give because you have learnt its detail discussion in general
pedagogy. In the very next part of the module instructional methods for teaching science
are discussed in detail. Relevant examples from the curriculum are also quoted to make
the module conducive. Moreover room of improvement is always there so suggestions
and criticism for the sake of improvement will always be welcomed.
Instructional Framework
Different authors, educationists and theorists have different views about the hierarchy of
the terms used in the instructional framework1.

1
Joyce, Bruce, and Emily Calhoun. "Three sides of teaching: styles, models, and diversity."
In International handbook of research on teachers and teaching, pp. 645-652. Springer, Boston, MA,
2009.
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Instructional framework

Strategy Method Technique
Meaning in
Urdu
Meaning in Master Plan Procedure Skill, Ability,
English proficiency
Definition A strategy as a A method, is an A technique is a way
careful plan for organized, orderly, of carrying out a
achieving goals systematic, and particular task,
usually over a long well-planned especially in the
period of time2. procedure aimed at execution of duty4.
facilitating and
enhancing students’
learning. 3.
Example Direct instruction Traditional lecture Planning, Evaluating,
method communication,
Listening,
Questioning,

2
Merriam Webster Dictionary (2016). Meaning of strategy. Retrieved from Merriam-
Webster.com/dictionary/teaching on 23rd June, 2017
3
HASANOVA, NASIBA, BUNYOD ABDUAZIZOV, and RAVSHAN KHUJAKULOV. "The Main Differences Between
Teaching Approaches, Methods, Procedures, Techniques, Styles And Strategies." JournalNX 7, no. 02: 371-375.
4
Oxford Advanced Learners Dictionary (2016). Meaning of technique. Retrieved from oxford
dictionaries.com/definition/technique on 23rd June, 2017
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Instructional Models
Models represent the broadest level of instructional practices and present a philosophical
orientation to instruction. Models are used to select and to structure teaching strategies,
methods, skills, and student activities for a particular instructional emphasis. Joyce and
Weil (1986) identify four models: information processing model, behavioral model, social
interaction model, and personal Model.
Instructional Strategy
Teaching strategies refer to the methods, skills, procedures and processes that a teacher
uses during instruction. It is generally recognized that teaching strategies are
multidimensional and their effectiveness depends on the context in which they are
applied. Strategies determine the methods, a teacher may take to achieve learning
objectives. Strategies can be classified as direct, indirect, interactive, experiential, or
independent.
Instructional Method

4. Instructional method is a systematic way in which a teacher uses to transfer or
receive or share information. Geoffrey defines teaching method as the process of
imparting knowledge and skills which is used by a teacher in the classroom. It implies the
use of principles and theories of instructions; it can include class participation,
demonstrations, recitation5. A systematic procedure, technique, or mode of attaining the
objectives is called method. Teaching method is a systematic way of teaching something.
It implies an orderly logical arrangement of steps. It is more procedural. In other words
teaching methods refer to a set of practices and principles used by teachers to make the
process of teaching and learning highly effective for their students. Teaching methods,
are usually also based on various beliefs regarding the nature of the content which is
being taught, and nature of the learner. In other words, as applied to classroom setting,
a teaching method is a series of related and progressive acts performed by the teacher
and the learners to accomplish the general and specific objectives of the lesson. For the
appropriate selection of teaching method a teacher might keep in mind the student’s
ability, the duration of the class, the need of the content, the context in which that
particular content is being taught, class Size, the learning Objectives, availability of the
learning material, autonomy of Students & examination set up.

Teaching Technique

5. Technique is a well-defined procedure used to accomplish a specific activity or
task. Many skills are used in a single method. It’s a way of carrying out a particular task,
especially the execution or performance of an artistic work or a scientific procedure. The
Oxford Advanced Learners Dictionary (2016) defines a technique as a way of carrying
out a particular task, especially in the execution of duty6.

5
Bello J. Y. (1981). Basic Principle of Teaching. John Willey and Sons Ibadan
6
Oxford Advanced Learners Dictionary (2016). Meaning of technique. Retrieved from oxford
dictionaries.com/definition/technique on 23rd June, 2017
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1. Direct Instruction
The Direct instruction strategy is highly teacher-directed and is most commonly
used. The direct instruction strategy is effective for providing information or
developing step-by-step skills. This strategy also works well for introducing other
teaching methods, or actively involving students in knowledge construction. Direct
instruction is usually deductive. That is, the rule or generalization is presented and
then illustrated with examples. While this strategy may be considered among the
easier to plan and to use, it is clear that effective direct instruction is often more
complex than it would first appear. This strategy includes methods such as:
a. Demonstration Method

In demonstration mthod teacher does step-by-step process in front of students. It
is also described as a display or an exhibition usually done by the teacher while
the students watch with keen interest. The demonstration method refers to the type
of teaching method in which the teacher is the principal actor while the learners
watch with the intention to act later.

i. It saves time and facilitates material economy.
ii. The method is an attention-inducer and a powerful motivator in lesson
delivery.
iii. Students receive feedback immediately through their own products.
iv. It gives a real-life situation of the course of study as students acquire skills
in real-life situations using tools and materials.
v. It helps to motivate students when carried out by skilled teachers and it is
good in showing the appropriate ways of doing things.
vi. It is a powerful means of motivating learners and arresting attention when it
is employed at the beginning of the lesson.
vii. It saves time.
viii. Materials are economized as the demonstration is done for a group of
learners and not individual learners.
ix. It makes abstract concepts real.
x. It aids learners’ observational skills.

Teachers not only demonstrate specific learning concepts within the classroom,
they can also participate in demonstration classrooms to help improve their own
teaching strategies, which may or may not be demonstrative in nature. Although
the literature is limited, studies show that the effects of demonstration classroom
teachers include a change of perspective in relating to students, more reflection in
the teachers’ own classroom strategies, and more personal responsibility for
student learning.

The demonstration can be carried out to show:
i. That water evaporates when heated;
ii. How to make a doormat;
iii. Application of pulleys in construction sites, quarry sites etc.;
iv. Friction in metal fabrication workshop and many more.
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In carrying out the demonstration, the following should be noted:
i. Purpose of the demonstration must be clear to all students;
ii. All students should see every part of the demonstration;
iii. Involve the students as much as possible; and
iv. Use simple and readily available apparatus and materials for
demonstrations.

Its only weakness is that it does not allow learners to develop manipulative skills
as the demonstration is usually done by the teacher. This method can be combined
with field trip method. This is because some of the activities that take place in field
trips are first demonstrated to the learners by the teachers or the resource persons
in the course of explanation.

b. Didactic Method
Didactic teaching is a teaching method that focuses on teachers giving
lessons to students. Typically, teachers who use didactic teaching create
structured lessons that focus on lectures. Teachers can use different
teaching methods depending on the needs of their students, their
personal preferences and other factors.
c. Lecture Method

This method is the most commonly used mode by the teachers. Teacher expects
the students to quietly sit and listen to the talk about the subject matter. The
teacher does all the talking while the students are passive, doing little or no talking.
The lecture is seldom used in secondary school classroom teaching-learning
situations. Most of what happens in teaching situations with a class size of over
200 students in tertiary institutions is lecturing. This is an organized verbal
presentation of a subject matter dominated by the teacher with little or no student
involvement. The teacher is responsible for organizing, preparing and presenting
the lecture while the students listen. A teacher would have no option than to use
the lecture method when the topic is abstract. It saves time and more topics are
covered, but it is rote learning and most often students lose the essential parts of
the lesson. The learners are passive and the class is boring and at the end does
not make room for the acquisition of scientific skills.

Some of the advantages of this method are:
i. It allows the material to be clarified and presented to a large group in a short
period of time.
ii. It gives teachers maximum control of the teaching in terms of the amount of
interaction, type of substance presented and organization of material.
iii. Since note is taking accompanies the lecture, the method promotes
learners’ oral and written expression.

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iv. It also helps learners to cultivate the habit of listening attentively.
However, in spite of the advantages mention above, it also has its own limitations
which are:
i. It encourages one-way communication.
ii. It hardly takes care of individual differences.
The teacher can present too much material leading to an unrealistic level of student
understanding of the topic and causing information to be quickly forgotten.

d. Drill and practice Method of Teaching
Drill and practice is a behaviorist-aligned technique in which students are given the
same materials repeatedly until mastery is achieved. In each iteration, students
are given similar questions to answer or activities to perform, with a certain
percentage of correct responses or actions moving the student to the next level of
difficulty. The term drill and practice is defined as a method of instruction
characterized by systematic repetition of concepts, examples, and practice
problems. Drill and practice is a disciplined and repetitious exercise, used as a
means of teaching and perfecting a skill or procedure.

e. Deductive Method
A deductive approach to instruction is a more teacher-centered approach. This
means that the teacher gives the students a new concept, explains it, and then has
the students practice using the concept. According to Bob Adamson, “The
deductive method is often criticized because:

i. It teaches grammar in an isolated way;
ii. Little attention is paid to meaning;
iii. Practice is often mechanical. ”

This method can, however, be a viable option in certain situations; for example,
when dealing with highly motivated students, teaching a particularly difficult
concept, or for preparing students to write exams.

f. Explicit teaching Method
Explicit teaching involves directing student attention toward specific learning in a
highly structured environment. It is teaching that is focused on producing specific
learning outcomes. Topics and contents are broken down into small parts and
taught individually. It involves explanation, demonstration and practice.

Explicit teaching is critically about clarity in:
 knowing the learner
 responding to the learner
 implementing focused lessons
 reflection and review
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g. Teacher Exposition
Teacher exposition is a teacher-centered technique used to present subject matter
in an orderly and organized fashion. It is the most frequently used method by
teachers. It is normally confused with the lecture method, which is extremely
expository. Teacher exposition is not a lecture method. A good teacher exposition
differs from a good lecture in that the former makes specific provisions for obtaining
knowledge for pupil learning at regular and frequent intervals, while the latter does
not. However, teacher exposition is said to be teacher-centered, it is relatively
more student-centered than lecture method. Obtaining knowledge of pupils’
learning is accomplished by frequent monitoring of pupils’ performance at relevant
cognitive tasks and by observing the non-verbal dimension of the pupils’
communication. Teacher exposition, therefore, constitutes constant active
interaction between teacher and pupils. A lecture may not necessarily involve the
pupils actively. Since teacher exposition is the presentation of content in an orderly
fashion, the key to its success is organization. That is, the breaking down of the
content into less complex subtopics and the sequencing of these subtopics in a
way that would maximize learning.

Its strengths are found in its use such as when:
i. The teacher has a copious amount of information he/she want to cover
within a relatively short time;
ii. The teacher is presenting new material;
iii. The teacher is introducing or over-viewing a course, unit or a topic of study;
iv. The teacher is presenting a summary or synthesis of materials already
covered;
v. The teacher is expanding the understanding of a concept; and
vi. The teacher is demonstrating relationships between concepts.
Its major demerit is that it limits student participation if not properly handled and
creatively used by the teacher. The Science and Technology teachers are
expected to select any teaching method that is appropriate in teaching a particular
topic or a combination of methods were necessary in their instructional deliveries.
These teaching methods can be combined in the science class to make the
Science and Technology classes a worthwhile exercise.

2. Indirect Instruction

Indirect instruction is mainly student-centered, although the two strategies can
complement each other. Indirect instruction seeks a high level of student involvement
in observing, investigating, drawing inferences from data, or forming hypotheses. It
takes advantage of students' interest and curiosity, often encouraging them to
generate alternatives or solve problems. It is flexible in that it frees students to explore
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diverse possibilities and reduces the fear associated with the possibility of giving
incorrect answers. Indirect instruction also fosters creativity and the development of
interpersonal skills and abilities. Students often achieve a better understanding of the
material and ideas under study and develop the ability to draw on these
understandings. In indirect instruction, the role of the teacher shifts from
lecturer/director to that of facilitator, supporter, and resource person. The teacher
arranges the learning environment, provides opportunities for student involvement,
and, when appropriate, provides feedback to students while they conduct the inquiry7.

This strategy is most appropriate when:

 thinking outcomes are desired;
 attitudes, values, or interpersonal outcomes are desired;
 process is as important as product;
 students need to investigate or discover something in order to benefit from later
instruction;
 there is more than one appropriate answer;
 the focus is personalized understanding and long term retention of concepts or
generalizations;

Following methods are the examples of indirect strategy:

a. Inductive Method
Inductive instruction makes use of student “noticing”8. Instead of explaining a given
concept and following this explanation with examples, the teacher presents
students with many examples showing how the concept is used. The intent is for
students to “notice”, by way of the examples, how the concept works. The inductive
teaching method or process goes from the specific to the general and may be
based on specific experiments or experimental learning. e. g. Ask students to
construct a few triangles. Let them measure and sum up the interior angles in each
case. The sum will be same (= 180°) in each case. Thus they can conclude that
“the sum of the interior angles of a triangle = 180°). This is a case where equality
of sum of interior angles of a triangle (=180°) in certain number of triangles leads
us to generalize the conclusion. Thus this is an example of inductive method.

7
Westerhof, Klaas J. "On the effectiveness of teaching: Direct versus indirect instruction." School
Effectiveness and School Improvement 3, no. 3 (1992): 204-215.
8
Newman, Isadore. "A Conceptualization of Mixed Methods: A Need for Inductive/Deductive Approach to
Conducting Research." (2000).
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Figure 1: Inductive verses deductive method
These methods are used particularly in reasoning i.e. logic and problem solving.
Reason means to draw inferences appropriate to the situation.
Inferences are classified as either deductive or inductive.
b. Inquiry Method
In inquiry-based learning teachers offer support and guidance as students work on
projects that depend on them taking on a more active and participatory role in their
own learning. Different students might participate in different projects, developing
their own questions and then conducting research often using online resources
and then demonstrate the results of their work through self-made videos, web
pages or formal presentations. Inquiry-based learning encourages students to
think critically about the information they are presented with, helps students
develop problem-solving skills. When they are given the opportunity to explore
real-world problems, encourages creativity, improve their communication skills,
helps connect learning to the real world, help students understand complex topics
and encourages engaged learning. Inquiry based learning may be conducted in
following ways:
i. Science Experiments
ii. Field Trips
iii. Classroom Debates
iv. Projects
v. Group Work
Following steps must be followed for conducting an inquiry:
i. Start with a Question
ii. Allow for Exploration
iii. Encourage Discussion
iv. Provide Resources
v. Summarize What Was Learned

There are specific learning processes that people engaged in during inquiry
approach, these processes include:
i. Creating questions of their own;
ii. Obtaining supporting evidence to answer the question(s);
iii. Explaining the evidence collected;

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iv. Connecting the explanation to the knowledge obtained from the
investigative process;
v. Creating an argument and justification for the explanation.

In the inquiry approach, the students are given the opportunity to carry out the
search and discovery of facts about events and scientific and technological ideas.
The pupils should be made to observe carefully, identify the problem, explorations,
hypothesizing, predicting, describing and conducting experiments, collecting data,
organizing and analyzing data, reporting, making generalizations and so on. It
develops attitudinal skills such as objectivity, curiosity, open-mindedness, and
perseverance. Inquiry entails practicing of attitudinal skill such as honesty, open-
mindedness, and perseverance when carrying out science and technology tasks.
Inquiry can be open-ended or close-ended. It could also be done in the classroom
or outside the classroom.

The strengths of this activity are:
i. It enables learners to be actively involved as the method emphasizes
learning through thinking.
ii. It facilitates the discovery of meaningful concepts, minimizes memorization
and stresses the importance of experience in solving a problem or arriving at a
logical conclusion.
iii. It motivates learners by providing them the opportunities to satisfy the need
to talk and interact with their peers.
Limitation of the inquiry based learning are:
i. It is time-consuming.
ii. It does not allow for the effective participation of weak and below average
students.
3. Interactive Instruction Strategy
Interactive instruction means to teach through social interaction. The interactive
instruction strategy allows for a range of groupings and interactive methods. These
may include total class discussions, small group discussions or projects, or student
pairs or triads working on assignments together. It is important for the teacher to
outline the topic, the amount of discussion time, the composition and size of the
groups, and reporting or sharing skills. Interactive instruction requires the
refinement of observation, listening, interpersonal, and intervention skills and
abilities by both teacher and students. The success of the interactive instruction
strategy and its many methods is heavily dependent upon the expertise of the
teacher in structuring and developing the dynamics of the group.
a. Discussion Method
Discussion simply means talking over topics from various points of view and the
teacher’s role is to act as moderator. Discussion in a science classroom should be
differentiated from lecturing. This is because discussion implies that every student
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has background information that provides him with viewpoints. In the use of this
method, there is an exchange of ideas between the teacher and the learner. The
discussion method can be used to introduce a lesson thus motivating students’
activities. It develops a positive interpersonal relationship and provides students
with a sense of confidence through the frequent exchange of ideas between the
teacher and the students. It enables the teacher to get a feedback on topics taught
and learners are able to express themselves in relation to the understanding they
have on a particular topic. However, it cannot be used often as it does not allow
easy coverage of syllabus, and not all topics led themselves to discussion. As the
discussion method must necessarily start with a question, the teacher must avoid
vague questions and so requires a thorough knowledge of the topics under
discussion.
b. Cooperative Learning
Cooperative learning is a successful teaching strategy in which small teams, each
with students of different levels of ability, use a variety of learning activities to
improve their understanding of a concept or subject. Each member of a team is
responsible not only for learning what is taught but also for helping teammates in
learning, thus promoting academic achievement and cross-cultural understanding.
However, the quality of achievement and other outcomes depend on the
implementation of cooperative learning methods that are characterized by at least
two essential elements: positive interdependence and individual accountability. In
a group task, each member is individually accountable for part of an outcome that
cannot be completed unless the members work together in other words, the group
members are positively interdependent. Some co-operative learning methods
include:
 Group investigations: to emphasize higher order thinking skills and produce a
group project;
 Jigsaw: used with narrative material where each team member is responsible for
learning a specific part of a topic, becoming the “expert” and then sharing their
findings with the group.
 Guided reading and other integrated cooperative reading strategies.

c. Flipped Classrooms
The flipped classroom is a “pedagogical approach in which direct instruction moves
from the group learning space to the individual learning space, and the resulting
group space is transformed into a dynamic, interactive learning environment where
the educator guides students as they apply concepts and engage creatively in the
subject matter9”. In this approach, face-to-face interaction is mixed with
independent study usually via technology. In a common Flipped Classroom
scenario, students might watch pre-recorded videos at home, watch an online
lecture, review online course material, read physical or digital texts, participate in
an online discussion at home and then complete attend the class and complete

9
Francl, Thomas J. "Is flipped learning appropriate?." Journal of Research in Innovative
Teaching 7, no. 1 (2014).

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their assignments related to that particular topic which they have already gone
through at home. This method of learning required in-depth knowledge of
objectives, processes, scenarios, and assessment criteria. It requires a detailed
curriculum design organized around scaffolding learning toward mastery. The
concept behind the flipped classroom is to rethink when students have access to
the resources they need most. Videos on the structure atoms atom etc may be
seen at home before learning structure of atom in class.

4. Experiential learning

Experiential learning is the idea that learning is a product of experience. Experience
might be gained from interacting and engaging with the world and people around us.
This learning theory comes from David Kolb’s experiential learning cycle, and
considers the role of all our experiences in learning, from emotions and cognition to
our environment. Experiential learning is a great teaching method because it
encourages creativity, helps students learn from mistakes, fosters reflective thinking,
and prepares students for future experiences. It can be effective for several subjects,
especially during science experiments, sports coaching, and group
projects Experiential learning occurs when learners:

 participate in an activity;
 critically look back on the activity to clarify learnings and feelings;
 draw useful insights from such analysis; and,
 put learnings to work in new situations. (Pfeiffer & Jones, 1979)

Experiential learning can be viewed as a cycle consisting of five phases, all of
which are necessary:

 experiencing (an activity occurs);
 sharing or publishing (reactions and observations are shared);
 analyzing or processing (patterns and dynamics are determined);
 inferring or generalizing (principles are derived); and,
 applying (plans are made to use [earnings in new situations).

The emphasis in experiential learning is on the process of learning and not on
the product. A teacher can use experiential learning as an instructional strategy
both in and outside the classroom. For example, in the classroom students can
build and stock an aquarium or engage in a simulation. Outside the classroom
they can, for example, observe courtroom procedures in a study of the legal
system.

a. Game-Based
Students love games, and considerable progress has been made in the field of
game-based learning, which requires students to be problem solvers as they work
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on quests to accomplish a specific goal. For students, this approach blends
targeted learning objectives with the fun of earning points or badges, much like
they would in a video game. For teachers, planning this type of activity requires
additional time and effort, so many rely on software like Class craft or 3D Game
Lab to help students maximize the educational value they receive from within the
gamified learning environment.

b. Laboratory Method
The laboratory method refers to the activities such as observation of processes,
products or events carried out by a group of students or individual students.
Laboratory method can be used to practice skills or acquire skills such as
interpreting and operating experiments. Experiments could be carried out to verify
hypotheses, confirm the known and discover the unknown. It aids the development
of manipulating skills, enhances realistic learning, it aids better retention, it
develops competence in learners in learners by developing confidence, and helps
develop students’ scientific attitudes, interests, and skills. The method aids the
learners to use their mental processes such as observing, inferring, measuring,
and data analysis. The advantages of this method may not fully be realized
because of the lack of the facilities and equipment necessary for the effective use
of this method.

c. Process-Based Teaching Method

Process-based learning is a method that uses identified issues within a scenario
to increase knowledge and understanding. Process-based method lays emphasis
on helping the students to develop process skills through practice or hands-on
activities. These activities can take place inside the school classroom or outside.
The teacher is to encourage the students to learn how to observe objects or events
more closely as they use their senses to gather information about the objects or
events. The teacher should make sure the information which the students obtain
is qualitative by describing what they have actually observed. An example of
process-based learning is illustrated in the case of grouping (classification) and
observation. For example, identifying similarities and differences of objects. Some
of the examples are:

i. Identify common weeds in the environment,
ii. Identify diseases infesting crop materials in their environment,
iii. Identify types of building and differentiate between each of the buildings
in their environment.
d. Project method

The project method is one of the standard teaching methods. It is a sub-form of
action-centered and student-directed learning and an initiative in which children
engage in practical problem-solving for a certain period of time. It is also revealed
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that projects focus on applying not imparting specific knowledge or skills, and more
rigorously than lecture, demonstration, or recitation, they aim at the enhancement
of intrinsic motivation, independent thinking, self-esteem, and social responsibility.
scholars also opine that proponents of the project method attempt to allow the
student to solve problems with as little teacher direction as possible. The teacher
is seen more as a facilitator than a delivery of knowledge and information.

Project method is a method used by science teachers to individualize instruction.
It is used to teach a central theme, idea or problem to be tackled. The theme could
be given to individual student or group of students. The students are encouraged
to investigate, collect specimens or materials, analyze and construct things at their
own. The teacher act as a guide in facilitating the student’s learning. At the end of
the investigation, the reports on the project are collected and discussed with the
whole class. Examples of projects include:

i. Investigating the different methods of conserving and improving soil fertility,
ii. Making simple weighing balance,
iii. Making simple models of machines.

To carry out a project, following definite and planned steps might be adopted:
i. In the first step, the teacher should create such conditions in which students
can make various kinds of scientific inquiries from him. Students can spot out such
problems at any place, i.e., laboratory, classroom etc.
ii. Once the students become interested in picking up and solving a problem,
the teacher should provide them with a number of alternative suggestions out of
which they can make a selection of suitable project in accordance with their mental
abilities.
iii. To make choice of appropriate alternative, proper suggestion and advice
should be provided to the students by the teacher. While doing so, it is necessary
for the teacher as well as the students keep in mind the available facilities in the
school.
iv. Proper planning related to the project might be made out. The teachers take
certain steps by which students can be made to hold a lively discussion.
v. At this stage, the teacher should assign duties and responsibilities among
the students and they should be informed about their area of functions.
vi. For proper execution of the project, it is necessary that all the students
should be provided with equal opportunities.
vii. Teachers also provide the students with the authority by which they can
sub-divide the responsibility provided to them.

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viii. Teachers provide students with proper guidance if any kind of difficulty is
being faced.
ix. It is the responsibility of both the teachers and students to review the
success and failure of the project frequently. They should note down the difficulties
which they faced during their work properly.
The strength of this activity are:
i. Provision of various learning experiences through the sharing of individual
and individual group experiences which would definitely be different from person
to person or group to group.
ii. The emergence of inter-disciplinary studies as a project may contain
materials from more than one subject area.
iii. Use of child-centered activities which ensures that the child’s natural
interests are fully taken care of during the teaching-learning process.
The weaknesses of the activity are:
i. It needs a lot of time and efforts to accomplish.
ii. It is very difficult to plan and execute if the class is large.
iii. It is easy to deviate from the objectives of the lesson.
Project method is an activity oriented method of teaching. Some of its activities
can be best carried out outside the school classroom which makes it appropriate
for teaching topics that require outdoor science educational activities.
e. Field Trip/ Excursion Method

Field trips involve journeys with the pupils to observe and investigate situations
outside the classroom. Many such expeditions might go no further than the school
building or environment. Within the school itself, the teacher may find illustrative
examples for his or her students. In the immediate environs of the school, there
may be available for examinations and observation such things as different soils,
flowers, a river, etc. Popular field trip sites include zoos, nature centers, public
support centers such as fire stations and hospitals, government offices, local
businesses, amusement parks, science museums, and factories, not only do field
trips provide alternative educational opportunities for children, but they can also
benefit the community if they include some type of community service. Field trips
also provide students the opportunity to take a break from their normal routine and
experience more hands-on learning. Places like zoos and nature centers often
have interactive displays that allow children to touch plants or animals. Students
who directly participate in a field experience generate a more positive attitude
about the subject. The field trip is also defined by many scholars as student
experiences outside of the classroom at interactive locations designed for
educational purposes. Field trips are most often done in three steps: preparation,
activities and follow-up activity. Preparation applies to both the student and the
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teacher. Teachers often take the time to learn about the destination and the subject
before the trip. Activities that happen during the field trips often include lectures,
tours, worksheets, videos, and demonstrations. Follow-up activities are generally
discussions that occur in the classroom once the field trip is completed.

Field trips may be planned for five purposes:
i. To provide firsthand experience,
ii. To stimulate interest and motivation in science,
iii. To add relevance to learning and interrelationships,
iv. To strengthen observation and perception skills, and
v. To promote personal (social) development.

Field trips involve journeys with the students to observe and investigate situations
outside the classroom about science and technology concepts and themes as they
occur in actual situations. Many of such expeditions might go no further than the
school building or environment. Within the school itself, the teacher may find
illustrative examples for his or her students. The students usually have firsthand
experience in nature and technological settings. The experiences gained during
field trips are long lasting and vivid (retention). Some possible sites for field trip
and related science and technology concepts are school farm/garden,
playgrounds, mechanics workshop, blacksmith, electronics and electrical
workshops and cyber café, streams, pounds and various industries.
The teacher should give the students opportunity to select any of scientific and
technological interest for the field trip. The teacher should visit the site for the field
trip before the date of excursion and make necessary and adequate arrangements.
The science and technology concepts to be learned should have relevance to the
curriculum and the students should have sufficient time to observe and ask
questions. When the pupils return, the teacher should ask them to discuss and
make a report of the trip

5. Independent Study

Independent study refers to the range of instructional methods which are purposefully
provided to foster the development of individual student initiative, self-reliance, and
self-improvement. While the independent study may be initiated by student or teacher,
the focus must be on planning independent study for students under the guidance or
supervision of a classroom teacher. In addition, independent study can include
learning in partnership with another individual or as part of a small group. Examples
of independent teaching strategy are:

a. Research Project

A research project is a scientific endeavor to answer a research question. Research
projects are guided by a working question that develops and changes. Research
allows you to pursue your interests, to learn something new, to hone your problem-
solving skills and to challenge yourself in new ways.
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b. Home work

Homework, or a homework assignment, is a set of tasks assigned to students by their
teachers to be completed outside the classroom. Homework teaches students how to
problem solve. Homework gives student another opportunity to review class material.
Homework gives parents a chance to see what is being learned in school. Homework
teaches students how to take responsibility for their part in the educational process.

c. Computer-assisted instruction

Computer-assisted instruction (CAI) is a narrower term and most often refers to drill and-
practice, tutorial, or simulation activities offered either by themselves or as supplements
to traditional, teacher directed instruction. Computer-based education (CBE) and
computer-based instruction (CBI) are the broadest terms and can refer to virtually any
kind of computer use in educational settings, including drill and practice, tutorials,
simulations, instructional management, supplementary exercises, programming,
database development, writing using word processors, and other applications.

References

C. S. Weinstein, M. E. Romano, and A. J. Mignano, Elementary Classroom
Management:

Francl, Thomas J. "Is flipped learning appropriate?." Journal of Research in
Innovative Teaching 7, no. 1 (2014).

J. T. Dillon, Questioning and Teaching: A Manual of Practice (New York: Teachers
College Press, 1988).

Lessons from Research and Practice (5th edn.) (New York: McGraw-Hill, 2011).

Newman, Isadore. "A Conceptualization of Mixed Methods: A Need for
Inductive/Deductive Approach to Conducting Research." (2000).

S. D. Brookfield and S. Preskill, Discussion as a Way of Teaching (2nd edn.) (San
Francisco: Jossey-Bass, 2005).

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