Skip to main content

Making Biology Fun: A Hands-On Approach to Cell Organelles- MYP 1 Science-Bhavesh Bhadaraka

Objective of the Learning Engagement:

The objective of this learning engagement is to help students understand the structure and functions of cell organelles through an analogical approach by comparing cell organelles to components of a house, café, or office. This approach will foster creativity, critical thinking, and a deeper understanding of cellular biology. Students will also develop their inquiry skills by acting as Socratic thinkers, generating critical questions for further exploration.

Details of the Learning Engagement:

Project TaskStudents were assigned to build a sustainable model of a house, café, or working office using household materials.

Analogical Connection: Students then connected components of their models to cell organelles, such as:

  1. Cell membrane: Entrance/security gate (controls what goes in and out)
  2. Nucleus: Manager’s office (controls overall operations)
  3. Mitochondria: Power supply room (provides energy)
  4. Endoplasmic reticulum: Hallways for staff movement (transport materials)
  5. Golgi body: Classrooms where knowledge is synthesized and refined
  6. Lysosomes: Trash/recycling area (waste management)
  7. Cytoplasm: Open space for movement within the building
  8. Following this, students explained their projects and reflected on how these components mirrored cell structures, thus helping them understand the role of each organelle in an engaging manner.
Socratic Inquiry: After the presentations, students were encouraged to generate critical thinking-based questions as Socratic learners, focusing on what they would like to explore further about cells and their functions.

Impact on Students:

1. Deeper Understanding: The use of analogies significantly deepened the students' understanding of cellular structures and their functions.
2. Engagement and Creativity: Students were highly engaged in the task, demonstrating creativity and excitement as they built their models and made connections to cell organelles.
3. Critical Thinking: By acting as Socratic thinkers, students asked insightful questions, reflecting their growing curiosity and understanding of the topic.
4. Collaboration: The task fostered teamwork as students shared ideas and helped each other with the creative and scientific aspects of their projects.

Reflection as an educator:

1. Enhanced Learning through Analogies: Using analogies was an effective strategy to break down complex scientific concepts, making the learning process both fun and educational.
2. Student Engagement: The hands-on, creative nature of the task allowed students to take ownership of their learning, leading to a higher level of engagement and motivation.
3. Inquiry-Based Learning: Encouraging students to think critically and generate their own inquiry questions led to rich discussions and set the stage for future explorations. I observed a positive shift in their ability to ask thoughtful, scientific questions.
4. Success in Connecting Concepts: The integration of sustainability with biology concepts not only reinforced scientific knowledge but also promoted environmental awareness, making the lesson multidisciplinary and impactful.

-Bhavesh Bhadaraka

Labels:

Comments

  1. sheeba AOctober 17, 2024 at 4:53 AM

    An excellent activity to engage students in grasping complex scientific concepts.

    ReplyDelete

Post a Comment

Popular posts from this blog

Beyond the Bill: A Math Lesson in International Dining MYP 2 - Vani Upadhyay

Objective of the Learning Engagement: Culinary Math Expedition: A Real World Adventure in Mathematics where students explored the intricacies of having a meal in a foreign country. Details of the Learning Engagement: In the ever-evolving landscape of education, finding creative ways to blend theoretical knowledge with practical application is key to fostering deeper understanding and engagement among students. Embark on a 'Culinary Math Expedition' a dynamic learning experience that takes students on a mathematical journey through the world of international dining, fostering a deeper understanding of how discounts and taxes affects the final amount of bill and currency conversion. The journey began with forming groups, or "dining tables," tasked with choosing a foreign country and finding a café or restaurant whose menu is available online. Action: The Math Behind the Meal Armed with a detailed handout, each group listed their selected menu items and prices. They dre
3 comments
Read more

Surd-tastic Learning: A Treasure Hunt Experience- MYP 4 Math- Manisha Batra

Objective of Learning Engagement:  Enhance understanding and application of surds through an interactive, collaborative experience Details of the Learning Engagement:  Our Grade 9 students recently participated in an exhilarating Surd Treasure Hunt designed to enhance their understanding and application of surds through an interactive and collaborative approach. Divided into small groups, students embarked on a journey where each clue card presented a surd problem of varying complexity. They worked together to solve these problems, employing critical thinking and teamwork to uncover the location of the next clue. This engaging activity not only deepened their mathematical proficiency with surds but also fostered essential skills such as logical reasoning, effective communication, and collaborative problem-solving. The treasure hunt concluded with the groups finding the final clue, leading them to a well-deserved reward. The event was a resounding success, making learning both fun and i
2 comments
Read more

MYP 4- Mathematics- Mensuration- Promoting critical thinking and communicating information in a logical way- Nagarjuna

Objective of the Learning Engagement: To promote critical thinking and communicating information in a logical way which helps in forming conjectures. Details of the Learning Engagement: Students have engaged in a practical application of both measurement and geometry concepts to determine the distances between each runner on the race track. The students used a measuring tape to measure the radius of the track and also the width of each lane. Then students applied perimeter of the circle, arc formulae to check whether the race track is exactly 200 metres or not. In a relay race, the second runner always stands ahead than the first runner (runner in the inner most lane) and the third person stands ahead than the second person and so on.. Students have identified the reason for the same mathematically and they found how much each runner should stand ahead than the first runner. They organised this information logically and formed a conjecture in finding the distances between the nth runn
3 comments
Read more