Methods and Strategies in Teaching Science PDF

Summary

This document outlines various methods and strategies for teaching science, including collaborative learning, technology integration, experiential learning, and problem-solving approaches. It's a resource for understanding different techniques to teach science concepts.

Full Transcript

***Topic:*** METHODS AND STRATEGY IN TEACHING AND LEARNING SCIENCE

***Difference between methods and strategy.***

A ***method*** is a process, a procedure, or a way something is done or
implemented.

On the other hand, a ***strategy*** is a goal, a set of actions, or
plans to achieve one aim***.***

***Science-*** Science is the study of the natural world through
observation and experimentation. It seeks to understand how things work
by forming questions, making predictions, and testing them. The main
branches include physical sciences, life sciences, earth sciences, and
social sciences.

***Methods in teaching science***

***Collaborative Learning Method*** promote group work and discussions
to help students learn from each other and develop teamwork skills.

***Use of Technology Method*** integrate simulations, virtual labs, and
interactive software to enhance understanding and engagement.

***Experiential Learning Method*** organize field trips, lab
experiments, or nature walks to connect theory with real-life
experiences.

***Lecture-based instruction*** ***Method*** allows educators to present
complex scientific concepts systematically, though it often results in
passive learning for students.

***Demonstrations Method*** effectively illustrate scientific principles
in action, helping students visualize concepts and fostering greater
understanding through observation.

***Scaffolding Method*** break down complex concepts into manageable
parts, providing support as students build their understanding.

***Lecture-Cum-Demonstration Method,*** the teacher delivers a lecture
while also performing demonstrations. It serves to convey information,
enhance understanding, and stimulate interest among students.

***Project Method*** involves students working on purposeful activities
or projects, like building models or conducting experiments. This hands-
on approach encourages exploration and application of scientific
knowledge, with the teacher providing guidance as necessary

***Laboratory Method*** allows students to conduct experiments
individually or in small groups under teacher supervision. This approach
encourages active participation and engagement, with the teacher acting
as a facilitator who guides and corrects students as needed.

***APPROACH/STRATEGIES IN TEACHING SCIENCE***

***Enquiry Approach*** encourages students to explore and ask questions.
Start with a puzzling event (like a light bulb blowing out) to spark
curiosity. Instead of giving direct answers, guide students to ask
questions and develop hypotheses. They can then test these ideas through
research and simple experiments. This method fosters critical thinking
and a deeper understanding of scientific concepts.

***Problem Solving Approach*** teaches students to tackle scientific
problems independently or with guidance. Begin the lesson with a
specific problem, prompting students to propose solutions based on prior
knowledge. Through self- study, discussions, and practical activities,
they test their ideas one by one. This process helps them identify the
best solution, fostering critical thinking and collaboration.

***Activity:***

***Group Members:*** Llanera, Cherry C.

Beltran, Pauline Joy

Estole, Marinel Janine

Belen, Jeany Joy