The home of writing: Journalism Workshop

Elizabeth Gilbert, author of the best-selling "Eat, Pray, Love" gave us a hint on where our home is: that something you love more than you love yourself. Just like Elizabeth, writing has always been my home, and I am more than willing to share my writing to anyone who's willing to learn. I have been requested to conduct a five-day workshop on Journalism writing to both teachers and students in my alma mater Mercedarian School, which started last Friday. I was honored to give something back to my elementary school and was more than willing to teach the teachers and students there.

I was informed that the writing skills of both the teachers and students should be honed better for them to develop critical thinking and apt writing and comprehension skills, and so I started with the basics of writing and composition and paragraph writing. It was good enough that the teachers were very inquisitive and proved that they want to improve their writing skills by volunteering their answers every time I gave them an activity on writing. The school's guidance counselor, Mr. Ted asked very good questions that went beyond critical thinking. Other teachers raised questions and gave good answers whenever I asked them to prove their answers to my questions. 

The third leg of the workshop will be on letter writing which is very essential for the students for they shall write request letters, business letters and the like all through out high school and college. Finally for the Journalism club, the fourth and fifth lectures will be on Article writing which includes news, features, sports and editorial writing, and lay-outing and designing of a mini newspaper or newsletter.

I would not have shared this knowledge to my alma mater and to the teachers and students if not for my good foundation and training under Ms. Josephine Bonsol, school paper adviser of LHS Courier in Lagro High School who also graduated at UP Diliman and continues to write in her blog www.jobonsol.net. She has been my mentor since second year high school and I keep coming back to sit in her classes in Journalism every now and then.

Katha 2014: Science and Critical Thinking in MTBMLE

Minutes of the Workshop transcribed. Speaker Dr. Fransisco Datar

KATHA 2014 Part 2: Day 6

Science Track: Science and Critical Thinking in MTBMLE

Dr. Fransisco Datar

Full  Professor

University of the Philippines Diliman

August 30, 2014

Minutes of the Workshop

1. Introduction. The speaker emphasized that the lecture would be about teaching science through critical thinking, how science is made. He first introduced the origin of science and proceeded with the concept of scientific method, in which it can be used in everyday life, especially in teaching. Scientific method should be simple, can be tested to answer one’s question. One must have a question at hand that should yield ample information so that conclusions can be made.

2. The light bulb. The speaker went on with a simple story with a light bulb and related it with scientific method, where it starts with an observation and will be considered as a problem. One must then hypothesize about the problem, possible reasons and explanations to the problem at hand. Hypothesis serves as a temporary explanation to the problem. The speaker collected different hypotheses from the teacher-participants. He also said that such hypotheses are arranged in order, then proceed with ways on how to test them and finally reject or accept your guess. Theory is defined as a tested explanation of facts compared to hypothesis which still needs to be tested.  Accepted hypothesis is when one has confirmed the problem after testing it in different ways. One should also be careful in interpreting data at hand. The speaker went on with the participation of the teachers with scientific thinking and hypothesis making by conducting different tests on the problem. He summed up the use of scientific method which is used in everyday life. Analysis, interpretation and conclusion should be “based only on the data that you have collected.”

3. Scientific Methodology. This method is a cycle of observation of facts and events and phenomena, problem identification, hypothesis making, test and data gathering, interpretation of data and finally conclusion. Using shortcuts, according to the speaker leads to bad conclusions and more often than not miscommunication.  Data should be sufficient enough to make a good conclusion. This is why sometimes problems are not solved properly because data is not sufficient, the testing of hypothesis is inappropriate and conclusions are wrong.

4. How do we do science?  “We employ logical and rational thought, that is, induction and reduction.” One must use induction to generalize. The speaker gave an example on how the thought is inductive on the health situation of a child. Deduction, on the other hand, you come from the generalization to the specifics. He gave an example on green-leaf plants that undergo photosynthesis and examples such as gumamela which also undergoes photosynthesis.

5. Scientific Reasoning. This should be testable, falsifiable, and repeatable. The problem is, people are often tied to religion, where “if they leave God out of the text, then it will be less religious and more scientific.” The speaker said that they are two very different things and should not be contested with each other. He gave an example on if the participants know their father, which may either be religious or scientific; that is, the mother only knows who one’s father is. Scientific method is applied with starting to ask questions. He also distinguishes between scientific method and faith. Scientific method starts with, for one, DNA testing, or resorting to faith. “Science deals not with the gods above but with the worlds below. It does not refute the gods; it merely ignores them in its explanations of the natural world.” One does not explain to the children that it is what it is, because it does not generate learning.

6. How do we test: creation of heaven and hell.  God’s will is completely different from scientific method. The question raised was was it God’s will for the participants to be in the conference? One participant said it is the principal’s will. One must come up with a hypothesis that his presence is God’s will. Answers were raised, but the point was about not being able to test the hypothesis because the law of scientific method is crashed in this type of situation. Such situation is mostly based on faith, the same way that people believe that they are created by God. This is the difference between science and faith that should not be contested with each other because neither should be questioned about a certain phenomenon that is exclusively copyrighted in one side. It is like playing patintero with the use of the rules of badminton. An issue was raised that faith may be based on making a problem that can be solved. But then it is still faith. These two issues should not be ever contested, the speaker emphasized. Another issue is raised on the religion in public schools. These are the limits of science, like the question on the existence of heaven, unless someone comes back from that place. There are questions on life and existence that science cannot answer because science has a specific scope only. An issue was raised on leaving such questions and issues in religion and values education, which is exactly the point raised by the speaker. Limitations change, and this should be accounted for in both science and faith. Data from the past may not be sufficient in the present. An example raised was the theory of evolution by Darwin. Evolution cannot occur when the same type of species co-exist with each other. The speaker said that science has a boundary, that’s why we interpret only based on the data at hand. When science cannot explain a phenomenon, faith comes in. Examples on debunked theories are the geocentric theory at the time Aristotle, measurements on every living being on earth, that the earth is round. An issue was raised on the measurements of Noah’s ark and Genesis that may be explained by science. But this is debunked by the speaker because a lot of problems are raised especially when religion and science are connected together. Most of the participants were not convinced that religion and science should be separated as subjects to point. Most of them were trying to convey that religion can also be science. But the speaker kept on emphasizing that religion should not be encircled with science because they are two very different things. Faith is necessary but it cannot be infused with science per se. “Any proposition that is stated as absolute or does not allow the possibility of falsification is not a scientific hypothesis and should be considered as such.  “When you start interpreting the bible literally, it becomes a problem especially when you use scientific method.” When it comes to science, all we can say is that this is the best explanation we can provide based only on the data on hand on that day. Exactly because science and faith are two very different games that’s why they cannot be interconnected with each other. Science has limits and boundaries, while in religion, faith is the base. More examples on trying to connect science with faith were provided by the speaker to enlighten the speakers on the difference between the two. As teachers of science, they have to clarify to themselves the difference between science and faith before they teach it. He also gave an anthropological example on the concept of making man and woman based on the bible and based on the Tagalog people in the baybayin system. It is about leaving creation to faith. “Science is self-correcting, because it also evolves.” Reading the bible should take into account the different cultures of the world, according to the speaker. “We never talked of absolute truth in science.”

7. Critical Thinking. “In science, we are not looking for the absolute truth.” In science, it is limited by the data one has in his hands. The speaker emphasized that two very different things such as science and faith should not be fused with each other. There should be a difference between what is scientific and what is not. The speaker said that the teachers should let the students process ideas, interpret data, explain interpretations, conduct conclusions and think, not just memorize formula. Teachers should teach students to think critically; however it is not the norm in the Philippine context. Science taught in formula is “sayangs”. “Critical thinking means to train students to ask productive questions.” There are a lot of things that science did not invent. There are a lot of academic fields that produce inventions using critical thinking. But everything falls under science. Science taught by the book means no progress in science. The speaker said that the teachers should encourage the students to ask questions and not dismiss them as being nuisance.

8. Elements of Reasoning.  1) Purpose. It is important for the students to see the relationships between things on scientific facts. They should teach them to process ideas. 2) Perspective 3) Problem 4) Evidence 5) Assumption 6) Concepts 7) Implications. When it comes to understanding the concepts, it is important to use the principle of parsimony. This entails that explanations should be brief and concise. An example is the existence of extraterrestrials, where the problem would lie in the testing of the hypothesis using the scientific reasoning. The principle or law of parsimony relies on the data on hand to produce probable results and truths, and especially making the most basic explanations. This is also termed as the Ockham’s Razor. This also entails the KISS principle: Keep it short and simple. 8) Consequences.

9. Standards of Reasoning. 1) Clarity 2) Precision 3) Accuracy 4) Adequately 5) Depth. This is teaching the student very deeply without letting him memorize and make him write definitions. 6) Relevance 7) Coherence. The ultimate goal is to let the student think critically. The child should also see the significance of this topic in his own life.

10) The Scientific Reasoning and Critical Thinking in MTBMLE. There is no such thing as Singapore Science or Valenzuela Science. The problem lies with the use of English as medium of instruction in Science. Science teachers are a bad product of a bad and corrupted system where English is worshipped as the privileged language over Filipino. Materials are written in English because that’s how the system works. 

Katha 2014: Understanding Math: CPA and Mental Computations of SG

Minutes of the Workshop transcribed. Speaker Ms. Pauline Mangulabnan

KATHA 2014: Day 3:

Understanding Math: CPA and Mental Computations of SG

Ms. Pauline Mangulabnan

De La Salle University Manila

July 26, 2014

Minutes of the Workshop

1. Introduction. The speaker started with the review of the past lectures. The aim of the lecture was to identify CPA in Math and what are the principles of Singaporean Math. One is to boost the self-esteem of the students in Math and be able to hone their mathematical skills. In the Philippines, math skills do not reflect high self-esteem. In Singapore on the other hand and other East Asian countries, math skills are important.

2. Singapore Math. According to Dinyal, the success of the SG curriculum is on the following: 1) intended curriculum, where the SG Ministry of Education studied the curriculum thoroughly. This paves way to the sayings such as “It’s okay for them to count with their hands” and “Self-esteem is a double-edged sword.” The intended curriculum has a differentiated approach but not different in content. It is carefully sequenced in terms of the range of topics in a spiral curriculum. Textbooks reflect multi-step problem sets using the CPA approach. 2) Implemented Curriculum. This is the centralized system in grades 1 to 4, where the students should be exposed to such system for at most five years. There is also the worksheet culture where teachers reinvent the curriculum. 3) Attained Curriculum. This is where the benchmarking of grades is included: In grade 4 for example, in Singapore it should be 71%, Hong Kong 67%, Japan 62% and China 50%. There is a large amount of time to be devoted to doing Math, at least 20% of the curriculum. Philippines has the highest time allotment for Math, but then it is not in the length of time but how we make use of the time given.

3. SG Math. There should be a right attitude for Math and an emphasis on visual thinking. SG problems can be simple and non-routine, where real world problems that are not well-defined must be included, open-ended and complex in nature. The focus on critical thinking is essential because it emphasizes mental computations, ensures conceptual understanding and de-emphasizes procedural memorization. CPA basically means Concrete-Prictorial-Abstract according to Jerome Brune’s Theory of Representation. The speaker added that “Teaching for learning is not a waste of time.”

4. How does Math start. Math starts in creation, communication, and use of intuition. In early kindergarten, introduction to word problems using nursery rhymes, games and fairy tales may be used. Concepts of absence and presence, syllables in lines, drawing scenarios with money in quantity and valuing what you have in life skills may also be used in this approach. The speaker also said “Don’t go straight to ABC’s, to XYZ; make use of pictures first especially in algebra.” Games like Piko may be utilized to create critical thinking problems. The speaker added that “Mathematics is a subject not to be memorized but to be understood.”

5. Number Bonds. Number bonds are one concept applied in Singapore Math also called as the Math family. Mental computation without memorization relies on concepts rather than in formula. Issues were raised that this kind of approach is not found in textbooks. The speaker clarified that they still have the same competencies but different approaches. The teachers have to identify which part of the curriculum can be applied. Reactions from the participants also included the “discovery approach”, but there may be time constraints with the number of competencies used; therefore it should be arranged in such a way that it can be accommodated. Another question was raised on if the children are then thinking critically, what would be its consequence. The consequence would be way beyond the teachers’ expectation, the speaker said. Concerns were also raised and included that elementary teachers are generalists. They could be assigned to different subjects almost every year, which may mean that there would be a loss of expertise, but the speaker perceived it as a new learning for them to apply this kind of approach.

Katha 2014: Basics of Singapore Math

Minutes of the Workshop transcribed. Speaker Ms. Pauline Mangulabnan

KATHA 2014: Day 1:

Basics of Singapore Math

Ms. Pauline Mangulabnan

De La Salle University Manila

July 12, 2014

Minutes of the Workshop

1. Introduction. The speaker first asked why is Math called Mathematics to the teacher-participants. It is exactly a science which provides a systematic solution for a set of problems. It is essentially part of our everyday lives. How exactly? In China, math is used for trade (calculation), in Egypt the Egyptians made the pyramids using practical Math. Ancient civilizations used math all the time, while the Greeks and Romans formalized the theoretical Mathematics. Mathematics is basically a Greek word “Mathematikos” meaning learning and mental discipline. The speaker asked the participants what is math for them. One answer was that math is one subject that pervades life at any age, in any circumstance. Thus its value goes beyond the classroom and school.

2. It’s all about thinking. Why do young Filipinos have to learn Math as Math as a school subject? Therefore it must be learned very comprehensibly and with much depth, focusing on problem solving and critical thinking. It is recognized that Math is an excellent vehicle for the development and improvement of a country. Math offers the students the opportunities for creative work, moments of enlightenment and discovery.

3. K to 12 and Math. There are two goals of K to 12 for Math: critical thinking and problem solving. Students must 1) learn necessary math knowledge 2) effectively carry out math processes 3) understand concepts and connections and 4) transfer learning through performance.

4. 2 Approaches to Chief Problem. The speaker said that the teachers must retell the problem and ask the students how they understand the problem. Problem solving sets must be localized to what the students know. Instruction and Assessment should be in the same language used. In teaching, it is important to stimulate the student’s world and give him a view of the world that lies beyond his own. To teach math is to bring out the children’s desire to learn and to think, according to Toshiyuki Makata. The speaker also said to “teach the formula but teach it last.” She also asked how do teachers develop thinking/solving not by teaching them the formula but by showing them the patterns and coming up with formulas. Teaching mathematics is broadening one’s world. The speaker finally gave an activity to the teacher-participants.