GROUP 1 - Hair infused net Manuscript PDF

Summary

This research paper explores the potential of hair-infused nets as a sustainable solution for mitigating oil spills in marine environments. The study focuses on the Philippines and other countries reliant on marine resources, and proposes a viable alternative to traditional oil spill response methods.

Full Transcript

LEARN AND EXPLORE MONTESSORI SCHOOL, INC. - SHS

THE POTENTIAL OF HAIR-INFUSED NETS AS A PERMANENT ECO-FRIENDLY
SOLUTION FOR MITIGATING OIL SPILLS IN MARINE ENVIRONMENTS

A Research Paper Presented to the
Faculty of Learn and Explore Montessori School, Inc.
Senior High School Department
Taguig City

In Partial Fulfillment of the Requirements of the subject
Practical Research 2

Submitted by:

Fervelyn L. Alina
Beyonceianne T. Betoca
Maria Ysabela S. Cruz
Sophia Tabitha A. Daganio
Justine Gabriel Gerolaga
Sandralyn T. Isnani
Khyrell B. Labrador
Railey N. Locop
Joerien Rose E. Macayan
Zerwin C. Tubo

Submitted to:

DR. RONALDO J. LASIN

NOVEMBER 2024

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Chapter 1
The Problem and Its Background

Introduction

Oil spills are a significant environmental threat, particularly in marine

environments. These incidents not only devastate marine life but also severely

impact local economies, especially in countries like the Philippines where fishing is

a vital industry. Recent oil spills, such as the one involving the MT Terra Nova, have

highlighted the urgent need for effective and sustainable solutions. The spill, which

released approximately 1.4 million liters of industrial fuel oil, has had catastrophic

effects on marine ecosystems and local communities (Liang A., 2024 & Li C., 2024).

Background of the Study

Oil spills can cause long-term damage to marine ecosystems, affecting

everything from plankton to large marine mammals. The toxic components of oil can

harm fish and shellfish, leading to declines in populations and impacting the entire

food chain. Additionally, oil spills can contaminate coastal habitats, making them

uninhabitable for wildlife and disrupting the livelihoods of communities that depend

on such environments (NOAA, 2024; NOAA, 2024).

Traditional methods of oil spill mitigation, such as chemical dispersants and

synthetic absorbents, often pose additional environmental risks and are not always

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effective in diverse conditions. This research aims to explore the potential of hair-

infused nets as a permanent, eco-friendly solution for mitigating oil spills. Hair—of

both humans and animals—has natural oil-absorbing properties that could be

harnessed to create a reusable and efficient tool for oil spill response (Britannica,

T., 2024).

The problem identified is the lack of sustainable and effective oil spill

mitigation methods that can be easily deployed by local fishermen. The proposed

solution is the development of hair-infused nets that are not only highly absorbent

but also reusable and compatible with various types of oil, including crude oil, diesel,

and motor oil. These nets can be easily carried and used by fishermen, providing a

practical and immediate response to oil spills. Not only can these nets be cost-

efficient, but production of these nets can be a lot easier to conduct, given that the

main material, such as the hair itself, is abundant.

By focusing on the Philippines and other countries heavily reliant on marine

resources, this research aims to provide a viable alternative to traditional oil spill

response methods. The development of hair-infused nets could significantly reduce

the environmental and economic impact of oil spills, offering a sustainable solution

that empowers local communities to protect their marine environments and their

livelihoods. This approach not only addresses the immediate need for effective oil

spill mitigation but also promotes long-term environmental stewardship.

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It is hypothesized that this research will positively influence fishermen’s

acceptance of hair-infused nets, providing them with a practical and eco-friendly tool

for oil spill response. The study’s findings could be instrumental in guiding the

development and refinement of these nets, ensuring they meet the needs of those

most affected by oil spills. Additionally, this research could pave the way for further

innovations in sustainable oil spill mitigation, encouraging the exploration of other

natural materials with similar properties. Ultimately, the success of this project could

serve as a model for other regions facing similar environmental challenges,

highlighting the importance of community-driven solutions in addressing global

environmental issues.

Theoretical Framework

The theoretical framework for this research is centered on the Absorptive

Properties of Natural Materials (Gao, B., 2020). This theory, rooted in sorption

science, explains how substances adhere to each other, particularly focusing on the

hydrophobic and oleophilic properties of natural materials like hair. Hair’s unique

ability to repel water while attracting and absorbing oil makes it an ideal candidate

for oil spill mitigation.

The Absorptive Properties of Natural Materials theory is crucial to this

research as it explains how hair can absorb oil, which is key to developing hair-

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infused nets for oil spill mitigation. This theory guides the design and testing of these

nets, enabling the creation of prototypes for real-world use.

By focusing on hair’s absorptive properties, the research aims to optimize net

design and deployment methods to maximize oil absorption and reuse. This

includes studying different types of hair, net designs, and deployment techniques.

The theory supports creating a sustainable solution that aligns with

environmental protection and community empowerment goals. Using a natural,

renewable resource like hair promotes an effective and eco-friendly method.

Overall, this theory provides a solid scientific foundation for developing hair-

infused nets as a sustainable and effective oil spill mitigation tool. It aims to

empower local communities to protect their marine environments and livelihoods,

addressing immediate oil spill issues and contributing to long-term environmental

sustainability and community resilience.

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Conceptual Framework

Figure 1. The schematic diagram of the Input, Process, and Output (IPO)

approach of this study.

This research paper adopts an IPO model; it includes all variables necessary

within the process and the information needed to make this study possible, as well

as several predicted hypotheses. As shown in Figure one (1), the concept model

illustrates the process of determining whether or not this study’s prototype of felted

hair-infused nets is a viable, practical, and sustainable solution to oil spills in marine

settings.

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For Input, in addition to the primary goal of oil spill mitigation, it consists of

the primary materials needed to create the netting prototype, which includes; human

hair, felting needles to compress the hair strands into a sturdy compact, the netting

for the hair to latch onto, and a plastic base. Keeping in mind both the purpose and

target audience of this study—the local fishermen—the resources are deliberately

kept, not only accessible, but also sustainable and eco-friendly, as hair is an organic,

abundant matter in comparison to other oil spill mitigation methods.

For Process, proceeds the first and most crucial experiment; the creation of

the first prototype among the two pre-experimental models; Prototype Alpha. This

model was made using an improvised plastic base from a kitchen rack—11.9 inches

in length and seven (7) inches in width—with its bottom removed to make room for

the netting; the netting itself being 10 inches in length and 5.1 inches in width,

attached via hand-sewing through the plastic base. For the handle, a metal clip was

attached on both sides of the prototype lengthwise—akin to a tray. Thereafter, the

hair would be needle felted into the netting until compressed and fused with the net.

Moreover, a simulated oil spill will be orchestrated by pouring a random amount of

oil into a tub of water where the prototype will be tested.

Regarding its performance, Prototype Alpha demonstrated that oil spills can

be managed effectively using a hand-held device, eliminating the need for direct

contact with the oil. Furthermore, the hair-infused net was able to absorb 500g of

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both crude and diesel oil efficiently in the same amount of time. Between the

absorption of crude and diesel oil, the results showed no significant difference in the

nettings capacity to absorb the two oils.

However, there are areas that needed improvement with the model;

particularly with the handle—the handle lacked stability and did not have the desired

ease of access. Moreover, the hair-infused netting was not adequately

amalgamated together, causing the hair strands to detach prematurely.

As for the cleanup, the process involved a straightforward method using soap

and water. The net was first rinsed with water, followed by washing with soap, similar

to the process of cleaning clothes. The entire procedure for removing oil from the

infused net took no more than 15 minutes. After washing, it required approximately

1-2 hours to dry and be ready for use again.

The observations gained from Prototype Alpha paved the path for the second

model—Prototype Beta. However, due to unforeseen circumstances, the

researchers had to substitute a plastic foundation for a wooden one made out of

plywood. A rectangular structure was built through sawing and gluing of the

plywood, reinforced with nails to ensure the structural integrity of the build

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Abaca was then sewn to close the hollowness of the foundation—between

that would be the felted hair-infused netting. Learning from previous errors, a long

handle would be attached to the length of the wood base in an angle for ease of

use. This time, Prototype Beta takes the shape of a pool cleaning net instead of the

previous tray shape. While Prototype Beta appears promising and a significant

upgrade to Prototype Alpha, further testing is needed.

Moreover, an administering of questionnaires will be conducted to a

randomly selected group of senior high school students in Learn & Explore

Montessori School (LEMS), who will act as an unbiased third-party spectator to the

performance of the final and third prototype. Their responses will be recorded and

converted into comprehensive statistics for analysis and interpretation.

For Output, this includes predictions and desired outcomes after the study.

Among additional information, recommendations for future researchers are to be

included in this section. The primary goal of this research paper is to empower local

communities to take action and aid in marine health, especially when the seas are

a major source of income and resource for many countries, including the Philippines.

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Statement of the Problem

This study seeks to provide a sustainable option to the ever-present issue of

oil spills by utilizing the hydrophobic yet oil-absorbing properties of hair. To address

this issue, the following questions will be explored;

1. To what degree can the hair-infused net absorb in terms of;

1.1. Oil type; diesel, crude oil, etc.

1.2 Quantity of oil

2. How does the prototype compare in comparison to traditional oil spill mitigation

methods?

3. What is the sustainability of the model in terms of;

3.1 Reusability

3.2 Material cost

3.3 Eco-friendliness

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What is the usability of the hair-infused nets in terms of;

4.1 Practicality

4.2 User-friendliness

Hypothesis

Through the review of previous related studies and literature, the basis of the

following hypotheses (H) was formed;

H0: Hair-infused nets made no significant difference compared to other

already pre-existing methods of oil spill recovery.

H1: Hair-infused nets will not effectively absorb various oils, will be less

sustainable, cost-efficient, and user-friendly than traditional methods, and will not

provide a practical, eco-friendly solution for local fishermen.

Scope and Limitation

The primary focus of this study is to analyze the efficacy and practicality of

hair-infused nets as a sustainable, eco-friendly solution for mitigating oil spills in

coastal areas. This research aims to develop nets with the use of various hair types,

felted and infused in netting material; to which the prototype will then be evaluated

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on their performance in real-world application and durability. Moreover, the

prototype utilizes hair as the primary material—in addition to the netting—and does

not include other potential resources besides such.

The third-party participants in this study will be composed of forty (40)

randomly selected senior high school students from Learn & Explore Montessori

School (LEMS) from the school year 2024 to 2025 and will be given a series of

questionnaires, in order to receive an unbiased evaluation of the finished model

outside of the researchers.

Additionally, this study will not include the production of other oil spill

mitigation tools. Instead, it will focus on evaluating the nets’ immediate effectiveness

in oil spill situations. This approach supports sustainability by prioritizing practical,

long-term solutions that can be quickly implemented to protect marine

environments.

It should be known that this study will be conducted on a set deadline and

time frame; with limited financial funding. Furthermore, most of the experiments are

to be held in Taguig City, Philippines.

Significance of the Study

With the ongoing problem of oil spills and their potential to worsen as climate

change creates more disastrous storms, the development of oil spill mitigation has

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become increasingly relevant and vital to the preservation of marine health. This is

especially relevant to countries such as the Philippines, which are prone to frequent

tropical cyclones. At large, Asian countries tend to be more susceptible to natural

disasters, leading to an increased risk of catastrophic oil spills (Calma, J., 2024 &

Jacobo, J., 2021). The results of this study intend to benefit the following:

Community. This study encourages community involvement, awareness,

and resilience in the face of environmental threats by empowering the local

community with the necessary tools to protect the seas and develop practical and

sustainable solutions for the coastal ecosystem.

Marine Biologists. Due to their poisonous chemical constituents, oil spills

continue to devastate aquatic life by causing both internal and external damage to

living organisms. Such effects include, but are not limited to, damaged respiratory

tracts, skin and eye infections, smothering of small fish species and invertebrates,

and disruption of the self-regulating abilities of furred mammals and the hydrophobic

feathers of avians, causing hypothermia for both parties—impairment of flight is also

common for avians whose feathers come into contact with oil (NOAA, 2021). The

significance of this study lies in its potential to mitigate these harmful effects by

developing effective oil spill response strategies, thereby helping marine biologists

preserve aquatic biodiversity and ensuring the health of marine ecosystems.

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Environment. Spilled oil disturbs marine environments, such as oyster reefs

and wetlands, leading to a loss of habitats, consequently resulting in disrupted

migration pathways, interruption of life cycles, and erosion of shorelines. Moreover,

coral reefs and mangrove forests are highly vulnerable to the toxicity of oily waters,

causing environmental degradation (NOAA, 2024). This study is significant, as it

aims to suggest these environmental challenges by proposing sustainable solutions

to manage and remediate oil spills, ultimately contributing to the protection and

restoration of vital marine habitats.

Future Researchers. Future researchers can reference this study or use it

as a pre-existing framework, invoking further investigation in the field of

environmental remediation by exploring new applications of organic materials—

specifically hair-infused nets—for reducing oil spills in marine environments.

Definition of Terms

To ensure mutual understanding with the readers of this research paper, the

terminologies are to be defined as follows:

Absorptive Properties. The ability of a material to take in or soak up liquids

or gasses.

Chemical Dispersants. Chemicals used to break down oil into smaller

droplets, making it easier to degrade.

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Community Empowerment. Enabling local communities to take control and

make decisions that affect their lives and environment.

Environmental Stewardship. The responsible management and care of the

environment.

Felting Needles. Special barbed needles used to compress and interlock

fibers to create a dense, sturdy material.

Hydrophobic. A property of a substance that repels water.

Leveraging. To take advantage of the maximum ability.

Marine Ecosystems. Communities of living organisms in the ocean and

other saltwater environments.

Netting Material. The base material onto which hair is attached to create the

hair-infused nets.

Oil Spill Mitigation. Methods and strategies used to reduce the impact of oil

spills on the environment.

Oleophilic. A property of a substance that attracts and absorbs oil.

Practicality. The ease and efficiency with which a product can be used in

real-world situations.

Prototype. An initial model or sample of a product used to test and refine the

design.

Reusability. The ability of a product to be used multiple times without losing

its effectiveness.

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Socio-Economic. The collaboration between the social and economic habits

within a group of people.

Sorption Science. The study of how substances adhere to each other,

including absorption and adsorption processes.

Synthetic Absorbents. Man-made materials designed to absorb liquids,

often used in oil spill cleanup.

Sustainable Solution. A method or product that can be maintained over the

long term without depleting resources or harming the environment.

Plankton. A group of microscopic water organisms.

Viable. The possibility of being attainable and achievable.

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Chapter 2

Review of Related Literature and Studies

Human Hair as an Eco-Friendly Solution

Human hair has gained recognition as an effective material for oil spill

cleanup due to its high absorbency and eco-friendly properties. Alderton, M. (2023)

highlights the efforts of the nonprofit organization Matter of Trust, which collects hair

donations to create “hair mats” capable of absorbing up to five times their weight in

oil. These mats provide a sustainable alternative to non-biodegradable

polypropylene mats, addressing both environmental and practical concerns. The

initiative, which began in response to an oil spill in the Galápagos Islands, has

successfully distributed over 40,000 mats globally, fostering community involvement

and promoting recycling practices.

The use of human hair for oil spill mitigation not only underscores its practical

benefits but also emphasizes the role of community-driven efforts in environmental

conservation. By leveraging a readily available and renewable resource, Matter of

Trust’s initiative exemplifies how innovative solutions can contribute to sustainable

practices and global environmental health.

Hair Booms for Oil Spill Containment

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The Green Salon Collective (2024) describes the innovative creation of hair

booms, which are made by stuffing human hair into nylon stockings to form

absorbent tubes. These booms are deployed in water to contain and absorb oil

spills, leveraging the natural oil-absorbing properties of hair while repelling water.

This eco-friendly method offers a sustainable alternative to synthetic materials

traditionally used in oil spill mitigation.

The process involves collecting hair from salons, cleaning it, and packing it

tightly into stockings. This initiative not only utilizes a renewable resource but also

encourages community participation in collecting and assembling hair booms. Such

involvement fosters a sense of collective responsibility and environmental

stewardship, highlighting the broader social and environmental benefits of this

approach.

Comparative Effectiveness of Natural Fibers

Subramoniapillai, V. and Thilagavath, G. (2022) examine the efficacy of

various natural fibers—including cattail, nettle, cotton, milkweed, kapok, populous

seed fiber, and metaplexis japonica fiber—in oil spill cleanup. These fibers are noted

for being environmentally friendly, biodegradable, and cost-effective. The study

identifies metaplexis japonica fiber as having the highest oil sorption capacity,

followed by populous seed fiber, kapok, milkweed, cotton, nettle, and cattail fiber.

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This review highlights the potential of natural fibers as sustainable alternatives to

synthetic materials in oil spill response, promoting eco-friendly practices.

Consequences of Oil Spills

Environmental Impact on Marine Habitats

Akpan, E. (2022) investigates the severe environmental degradation

resulting from oil spills in the Niger Delta region. The study highlights significant

negative impacts on soil fertility and marine ecosystems, leading to the

extermination of local flora and fauna. This environmental damage underscores the

urgent need for systematic containment, recovery, cleanup, and restoration efforts

to sustain marine life.

Furthermore, Akpan emphasizes the importance of cost-effective and

environmentally friendly techniques to mitigate oil pollution in the Niger Delta. The

research advocates for sustainable practices to protect and restore affected

habitats, highlighting the critical role of innovative solutions in addressing the long-

term consequences of oil spills on marine ecosystems.

Effectiveness of Sustainable Materials for Terrestrial Oil Spills

Murray, M. L., et al. (2020) conducted a comparative analysis of dog fur,

human hair, peat moss, and polypropylene in their efficacy at removing oil from

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various surfaces. The study reveals that dog fur and human hair are as effective as

polypropylene on non-porous and semi-porous surfaces, highlighting their potential

as viable alternatives. This finding underscores the sustainability and

biodegradability of natural materials, positioning them as eco-friendly options for oil

spill cleanup.

However, the study also notes that polypropylene outperforms dog fur and

human hair in sandy environments, suggesting that the efficacy of these materials

can vary based on the specific conditions of the spill. This research emphasizes the

importance of selecting appropriate materials for different scenarios, advocating for

the use of sustainable and biodegradable options where feasible to minimize

environmental impact.

Human Hair as an Eco-Friendly Solution

Human hair has emerged as a remarkably effective material for oil spill

cleanup, primarily due to its high absorbency. In a study by Guiao, M. A. (2023), hair

was proven to absorb up to five times its weight in oil, making for an excellent choice

in oil spill clean-up. This method leverages the natural buoyancy of oil, which floats

on water, allowing hair mats to efficiently collect and contain the oil.

The process involves collecting hair from salons and individuals, cleaning it,

and then compressing it into mats. These mats are then deployed in affected areas

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to soak up the oil. This approach not only provides an efficient cleanup solution but

also promotes the reuse of a readily available resource. By utilizing human hair, we

can reduce our reliance on synthetic materials such as polypropylene—which are

non-biodegradable and can contribute to environmental pollution.

Moreover, this method supports sustainable practices and fosters community

involvement. Salons and individuals who donate hair become active participants in

environmental conservation efforts. This collective action not only helps mitigate the

immediate impact of oil spills but also raises awareness about the importance of

sustainable practices and the potential of everyday materials in addressing

environmental challenges.

In summary, using human hair for oil spill cleanup is a practical, eco-friendly

solution that harnesses a renewable resource. It exemplifies how innovative thinking

and community participation can lead to effective environmental conservation

strategies.

Cost-Effectiveness and Community Involvement

According to De Guzman, C., (2023), using hair mats for oil spill cleanup is a

cost-effective solution that leverages the abundance of hair as a resource.

Traditional methods like booms, skimmers, and chemical dispersants are often

expensive and labor-intensive. Hair and feathers, however, have been recognized

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as cost-effective oil-absorbent materials. For instance, during an oil spill in

Guimaras, inmates shaved their heads to donate hair for cleanup efforts,

demonstrating community involvement. A study by researchers at the University of

Technology in Sydney found that untreated human hair is significantly better at

collecting oil products than cellulose or other cotton byproducts.

Human Hair’s Unique Structure

The Green Salon Collective (2024) emphasizes that the unique structure of

human hair makes it highly effective at absorbing oil, which aids significantly in the

cleanup process and helps reduce the spread of pollutants. Utilizing hair, a

renewable resource, for this purpose not only proves to be effective but also helps

in reducing the waste generated by salons. This dual benefit makes human hair a

valuable resource for environmental conservation efforts, promoting both

sustainability and waste reduction.

Immediate Socioeconomic Impacts

A study by Agaton, C. B., et al. (2023) investigates the immediate

socioeconomic impacts of the 2023 Mindoro Oil Spill on the fishing communities in

Naujan, Philippines. Through narrative analysis of interviews with affected fisherfolk,

the study reveals severe consequences, including loss of income, health issues,

and environmental damage. The research underscores the inadequacy of

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government aid and emphasizes the urgent need for vocational training and

alternative livelihood options.

These findings aim to inform future government interventions and support

mechanisms for the affected communities, highlighting the critical need for

comprehensive and sustainable solutions to mitigate the socioeconomic fallout of

such environmental disasters.

Long-Term Socioeconomic and Environmental Impacts

Oil spills pose significant long-term socioeconomic and environmental

challenges, particularly for archipelagic nations like the Philippines, situated in the

Coral Triangle. Barandino, J. S. (2023) provides a comprehensive overview of these

impacts, highlighting the country’s vulnerability due to its busy maritime routes.

From 2000 to 2021, major oil spills in the Philippines were primarily caused

by sunken vessels and pipeline leaks. The recent spill from the M/T Princess

Empress in February 2023 had a profound impact, affecting 178,306 people and

causing approximately USD 5.27 million in agricultural damage. This incident

underscores the critical need for alternative livelihoods, skills training, and improved

disaster response mechanisms.

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Barandino emphasizes the importance of exploring the long-term

socioeconomic and environmental impacts of oil spills to develop a comprehensive

understanding of such disasters. Future research should focus on these areas to

inform better policy and response strategies, ensuring more resilient and

sustainable communities.

Government Response and Challenges

Effective management of oil spills is crucial for minimizing environmental

damage and protecting marine ecosystems. The Philippine Coast Guard’s Marine

Environment Protection Command (MEPCOM) oversees oil spill response through

the National Oil Spill Contingency Plan (NOSCOP), which employs mechanical,

chemical, and in-situ burning strategies based on the severity of the spill. From 2000

to 2022, MEPCOM reported 466 offshore oil spill incidents, highlighting the ongoing

challenges in managing such disasters.

A study by Barandino, J. S. (2023) emphasizes the need for improved

monitoring systems, digital mapping, and effective policies to enhance resilience

and minimize future risks. The response to the 2006 Guimaras Strait oil spill

particularly highlighted the importance of considering environmental factors in

managing spill spread and emphasized the need for better disaster preparedness

and resource management. These insights are critical for informing future strategies

and policies to improve oil spill response and mitigation efforts in the Philippines.

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Effectiveness of Hair in Oil Spill Cleanup

Oil Absorbent Properties of Hair

The use of hair as an oil-absorbent material has garnered attention due to its

unique properties and environmental benefits. Thomas, J. C. (2023) emphasizes

that hair is not only an effective oleophilic material but also an organic and

renewable resource. The porous structure of hair naturally attracts oil while repelling

water, making it highly efficient for oil spill mitigation. This dual functionality is

particularly advantageous in marine environments, where the ability to separate oil

from water is crucial for effective cleanup.

Additionally, hair’s lightweight and buoyant nature allows for easy handling

and deployment, which significantly enhances the efficiency of the cleanup process.

In marine settings, the ease of deploying and retrieving absorbent materials can

greatly impact the overall effectiveness of the response efforts. Hair mats and

booms can be quickly deployed to affected areas, providing an immediate response

to oil spills and minimizing environmental damage.

Thomas also highlights the environmental benefits of using hair over

synthetic materials. Hair is biodegradable and reduces the reliance on non-

biodegradable synthetic materials, which can contribute to further environmental

pollution. By utilizing a renewable resource like hair, this method supports

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sustainable practices and promotes environmental conservation. The study

emphasizes the potential of hair as a viable and eco-friendly alternative for oil spill

cleanup, advocating for its broader adoption in environmental management

strategies.

Sustainable and Practical Solution

The use of hair-infused mats for oil spill cleanup has proven to be both

sustainable and practical. Leigh-Hewitson, N. (2022) discusses the pioneering work

of Lisa Craig Gautier, founder of the nonprofit Matter of Trust, who has been utilizing

hair mats to combat oil spills since 2000. This long-term application highlights the

effectiveness and sustainability of hair as a solution for oil spills.

Matter of Trust collects hair donations from salons and individuals, processes

the hair into mats, and deploys them in oil spill scenarios. This method not only

provides an efficient cleanup solution but also actively involves the community in

environmental conservation efforts. By engaging the public in donating hair and

participating in the cleanup process, the initiative fosters a sense of collective

responsibility and environmental stewardship.

The success of Matter of Trust’s initiative underscores the potential for

widespread adoption of hair mats as a standard tool in oil spill response strategies.

The practical benefits, combined with the environmental advantages of using a

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renewable resource, make hair mats a compelling alternative to traditional synthetic

materials. This approach demonstrates how innovative, community-driven solutions

can effectively address environmental challenges and promote sustainable

practices

Cost-Effectiveness and Abundance

The cost-effectiveness and abundance of hair make it an attractive option for

oil spill cleanup. Thi, N., et al. (2023) highlight that hair can absorb three (3) to nine

(9) times its weight in oil, effectively removing oil scum from wastewater and

ensuring the treated water meets environmental standards. This high absorbency

makes hair mats a cost-effective solution for oil spill mitigation, providing an efficient

and economical alternative to traditional methods.

Additionally, the research points out that hair is a readily available resource,

often considered waste in salons, which can be repurposed for environmental

cleanup. This repurposing not only reduces waste but also offers a low-cost

alternative to traditional oil spill response materials, which are often expensive and

less environmentally friendly. By utilizing hair, the study underscores the potential

for sustainable and cost-effective oil spill mitigation strategies that leverage an

abundant and renewable resource.

Overall Promise of Human Hair

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Human hair presents a promising and sustainable alternative for oil spill

cleanup due to its natural properties. Kusuma, N. (2022) highlights that hair is ideal

for collecting oil, effectively avoiding the environmental hazards associated with

traditional methods. While conventional techniques are still necessary for large-

scale disasters, communities have successfully employed hair for smaller spills,

demonstrating its practical application.

Additionally, hair mats have potential uses beyond immediate spill response.

They could be integrated into storm drains and filtration systems to proactively

prevent oil contamination. This proactive approach underscores the versatility and

effectiveness of hair in various environmental protection scenarios.

However, the study also suggests that further research is needed to develop

efficient methods for disposing of used, oil-saturated hair mats. Ensuring that the

entire lifecycle of the cleanup material is environmentally sustainable is crucial for

maximizing the benefits of this innovative solution.

Comprehensive Impact Review

A study by Lovindeer, R., et al., (2023), a group of Ocean and Atmospheric

Scientists provides an extensive review of the ecosystem-level impacts of oil spills

in the Salish Sea region. It collates data on the effects of oil spills on various

ecological groups, including marine mammals, sharks, seabirds, and other marine

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organisms. The study underscores the importance of understanding the long-term

effects of oil spills, which are often poorly understood due to data gaps and the

complexity of marine systems. The authors present a process for selecting and

assessing data on contaminant stressors, emphasizing the need for comprehensive

data to support regional ecosystem models.

Key Variables Influencing Severity

Understanding the ecosystem-level impacts of oil spills is crucial for effective

environmental management. A study written by Lovindeer, R., et al. (2023) identifies

key variables that influence the severity of oil spill impacts, such as the type of oil,

the affected ecological groups, and the specific environmental conditions of the spill

location.

The research underscores the importance of addressing data gaps,

particularly in PAH uptake rates and metabolism across biological groups, to

enhance long-term risk assessments. By applying a scoring system to gauge the

usefulness of available data, the authors provide insights into effective mitigation

measures and stress the need for robust environmental management efforts. The

study’s findings are crucial for informing future planning and response strategies,

particularly in regions with increasing oil tanker traffic.

Effectiveness of Hair in Oil Spill Cleanup

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Oil Absorbent Properties of Hair

The use of hair as an oil absorbent has been widely recognized for its

effectiveness and environmental benefits. San Juan, R. (2024) discusses how

studies have demonstrated hair’s ability to absorb and trap oil efficiently. The natural

structure of hair allows it to adsorb oil, making it a valuable resource in mitigating oil

spills. The article highlights the efforts of the Bulacan State University-

Environmental Science Society, which has successfully applied hair in practical oil

spill cleanup scenarios.

This method not only provides an effective cleanup solution but also

promotes the reuse of a readily available resource, thereby reducing waste and

environmental impact. By utilizing hair, which is often considered waste in salons,

this approach supports sustainable practices and highlights the potential for

innovative, eco-friendly solutions in environmental management.

Community Involvement and Practical Application

Community involvement is a cornerstone of effective environmental

conservation, particularly in addressing the challenges posed by oil spills. By

leveraging local resources and fostering collective action, communities can play a

pivotal role in mitigating environmental damage and promoting sustainable

practices.

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Community involvement is crucial in environmental conservation efforts,

especially in oil spill mitigation. For instance, residents of Palawan, a Philippine

Island renowned for its pristine beaches, have taken proactive measures to combat

oil spills using human hair and old clothing. According to The Straits Times (2023),

local disaster management teams have been collecting hair from barber shops and

old clothing to create makeshift oil containment booms. This community-driven

approach underscores the practicality and effectiveness of using everyday materials

in environmental conservation. The active participation of local communities in such

initiatives fosters a sense of responsibility and collective action towards

environmental protection.

The involvement of local communities in environmental conservation efforts,

such as oil spill mitigation, demonstrates the power of grassroots initiatives. By

utilizing readily available materials and encouraging community participation, these

efforts not only address immediate environmental threats but also promote a culture

of sustainability and shared responsibility. This approach highlights the importance

of community-driven solutions in achieving long-term environmental goals.

Innovative Designs and Cost-Effectiveness

Innovative designs and cost-effective solutions are essential in addressing

environmental challenges such as oil spills. By exploring alternative materials and

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methods, researchers can develop practical and sustainable strategies to mitigate

environmental damage.

According to Fandiño, C. D., Ladines, R., and Luna, D. L., (2023) from the

College of Maritime Education at Manuel S. Enverga University Foundation

conducted a study to develop an alternative oil spill obstruction using human hair

and polypropylene. They designed a layered oil filter with human hair placed

between polypropylene fabrics, which served as an oil absorbent and binding agent.

This innovative design proved efficient in obstructing oil and preventing its spread

in the ocean.

The study underscores the cost-effectiveness and practicality of using human

hair in combination with other materials to enhance oil spill response strategies. By

leveraging readily available resources, this approach not only offers a sustainable

solution but also reduces the overall cost of oil spill mitigation efforts. This research

highlights the potential for innovative, low-cost materials to play a significant role in

environmental conservation.

Nationwide Efforts and Environmental Impact

The 2006 Guimaras oil spill, one of the worst environmental disasters in the

Philippines, had devastating effects on the local environment and communities. As

studied by Cruz, R., (2019). The spill contaminated coastal waters, destroyed

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marine habitats, and disrupted the livelihoods of thousands of residents. Immediate

impacts included the death of marine life and the destruction of mangrove forests,

which are crucial for coastal protection and biodiversity. The response involved

multiple stakeholders, including the Philippine government, international

organizations, and local communities, focusing on containment, cleanup, and long-

term rehabilitation. Bioremediation techniques, using microorganisms to break down

pollutants, played a significant role in the cleanup efforts.

In the aftermath, several measures were implemented to prevent future

incidents and protect the environment. These included stricter regulations on oil

transportation, improved emergency response protocols, and the establishment of

marine protected areas. Community involvement in environmental monitoring and

conservation efforts has been emphasized to ensure sustainable practices. The

Guimaras oil spill underscored the need for robust environmental protection

measures and effective disaster response strategies, highlighting the importance of

continued efforts in rehabilitation, regulation, and community engagement to

mitigate the impact of such disasters and safeguard the environment.

Consequences of Oil Spills

Major Oil Spills and Their Impact

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Understanding the consequences of oil spills is crucial for developing

effective and sustainable response strategies. Major oil spills have far-reaching

impacts on the environment and local communities, highlighting the need for

comprehensive mitigation efforts.

De La Cruz, C. I. (2024) provides an in-depth examination of significant oil

spills in the Philippines and their long-term effects on the environment and local

communities. The article highlights several major incidents, including the MT

Terranova oil spill in Manila Bay in 2024, the MT Princess Empress oil spill in

Oriental Mindoro in 2023, and the Petron underwater pipe leak in Cavite in 2013.

These incidents caused extensive environmental damage, affecting marine

biodiversity and the livelihoods of local communities.

The study underscores the devastating impact of these oil spills and the

challenges in recovery. It emphasizes the need for effective and sustainable

response strategies to mitigate future incidents. The long-term effects on marine

biodiversity and local economies illustrate the importance of preparedness and

community involvement in addressing such environmental disasters.

Immediate and Long-Term Effects

According to a review by De La Cruz, C. I., (2024). The MT Terranova oil spill

released 1.4 million liters of industrial fuel oil into Manila Bay, causing significant

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environmental damage and threatening the coasts of Cavite, Pampanga, and Metro

Manila. The initial response involved deploying multi-role response vessels to apply

oil dispersants, but the thick layer of oil slick posed a considerable challenge.

Similarly, the MT Princess Empress oil spill in 2023 released 900,000 liters of

industrial fuel oil into the Verde Island Passage, causing an estimated environmental

damage of PHP seven (7) billion and affecting up to 27,850 farmers and fisherfolk.

The Petron underwater pipe leak in 2013 resulted in a diesel oil leak near the

coastline of Rosario, Cavite, causing a significant fish kill and shutting down the

fishing industry in several coastal towns. These incidents highlight the immediate

and long-term effects of oil spills on the environment and local economies.

Community and Government Response

According to San Juan, R., (2024), effective oil spill response requires a

coordinated effort between local communities and government agencies. By

working together, these groups can implement practical and sustainable strategies

to mitigate the impact of oil spills and ensure the recovery of affected areas.

The reviewed studied by The Straits Times, (2023), emphasize the

importance of community involvement and government response in addressing oil

spills. Local communities, such as those in Palawan, have taken proactive

measures to combat oil spills using readily available materials like human hair and

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old clothing. These grassroots efforts demonstrate the resourcefulness and

commitment of local residents in protecting their environment.

Government agencies and organizations, including the Philippine Coast

Guard and local disaster management offices, play a crucial role in coordinating

response efforts and implementing effective cleanup strategies. Their collaboration

with communities is essential for mitigating the impact of oil spills and ensuring the

recovery of affected areas. This partnership highlights the importance of combining

local knowledge and resources with governmental support to achieve effective and

sustainable environmental conservation.

Synthesis and Relevance of the Related Literature and Studies

The literature on the use of human hair for oil spill mitigation consistently

highlights its potential as an eco-friendly and effective solution. Alderton (2023) and

the Green Salon Collective (2024) emphasize the high absorbency and natural oil-

repelling properties of human hair, making it a viable alternative to synthetic

materials like polypropylene. These studies underscore the practicality of hair mats

and booms in absorbing oil, with Alderton noting their ability to absorb up to five

times their weight in oil. Guiao (2023) and De Guzman (2023) further support these

findings, demonstrating the cost-effectiveness and community involvement in using

hair for oil spill cleanup in the Philippines.

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Comparative analyses by Subramoniapillai and Thilagavath (2022) and

Murray et al. (2020) reveal that natural fibers, including human hair, are not only

environmentally friendly but also competitive in oil sorption capacity. These studies

collectively highlight the sustainability and biodegradability of natural materials,

positioning them as superior alternatives to non-biodegradable synthetic options.

The practical applications of hair in oil spill response, as discussed by Thomas

(2023) and Leigh-Hewitson (2022), illustrate the dual benefits of environmental

conservation and waste reduction.

The immediate and long-term socioeconomic impacts of oil spills, as

examined by Agaton et al. (2023) and Barandino (2023), underscore the urgent

need for effective mitigation strategies. The devastating effects of major oil spills in

the Philippines, detailed by De La Cruz (2024), highlight the critical role of

community and government response in addressing environmental disasters. The

proactive measures taken by local communities, such as those in Palawan,

demonstrate the practical and effective use of human hair in oil spill mitigation,

reinforcing the findings of San Juan (2024) and The Straits Times (2023).

In conclusion, the reviewed literature collectively supports the potential of

hair-infused nets as a sustainable and effective solution for mitigating oil spills in

marine environments. The studies emphasize the practicality, cost-effectiveness,

and environmental benefits of using human hair, advocating for its broader adoption

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in oil spill response strategies. This synthesis highlights the importance of

innovative, community-driven approaches in achieving long-term environmental

conservation and resilience.

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Reference

Alderton, M. (2023). Human hair: The secret weapon for cleaning oil spills.

Treehugger. https://www.treehugger.com/human-hair-secret-weapon-cleaning-oil-

spills-5323449

Akpan, E. (2022) Environmental Consequences of Oil Spills on Marine

Habitats and the Mitigating Measures—The Niger Delta Perspective. Journal of

Geoscience and Environment Protection, 10, 191-203. doi:

10.4236/gep.2022.106012.

https://www.scirp.org/journal/paperinformation?paperid=118339

Agaton, C. B., Guno, C. S., Labog, R. A., & Collera, A. A. (2023). Immediate

Socioeconomic Impacts of Mindoro Oil Spill on Fisherfolk of Naujan, Philippines.

Resources, 12(9), 102. https://www.mdpi.com/2079-9276/12/9/102

Barandino, J. S. (2023, October 10). Oil spill in the Philippines: Its impact,

responses, practices, and challenges. International Journal of Scientific Engineering

and Management.

https://www.technoarete.org/common_abstract/pdf/IJSEM/v10/i10/Ext_09346.pdf

Cruz, R. (2019, October 16). Saving an island from the worst oil spill in the

Philippines: The case of Guimaras. Mongabay.

https://news.mongabay.com/2019/10/saving-an-island-from-the-worst-oil-spill-in-

the-philippines-the-case-of-guimaras/

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De Guzman, C. (2023, March 14). Human hair is being used to clean an oil

spill in the Philippines. TIME. https://time.com/6262631/philippines-oil-spill-cleanup-

hair/

De La Cruz, C. I. (2024, July 30). Major oil spills in the Philippines: Impact

and recovery. Esquire Philippines. https://www.esquiremag.ph/long-

reads/features/major-oil-spills-in-the-philippines-a3690-

20240730?s=210ds6qe9pt559il51thq50q46

Fandiño, C. D., Ladines, R., & Luna, D. L. (2023). Design and development

of an alternative oil spill obstruction using human hair and polypropylene. Manuel S.

Enverga University Foundation. https://mseuf.edu.ph/research/read/1869

Green Salon Collective. (July 15, 2024). Did you know hair can help clean

up oil spills? Green Salon Collective. Retrieved September 8, 2024, from

https://www.greensaloncollective.com/blogs/education/did-you-know-hair-can-

help-clean-up-oil-

spills#:~:text=Human%20hair%20has%20a%20unique,in%20the%20clean%2Dup

%20process

Green Salon Collective. (May 12, 2024). How to make a hair boom: A

sustainable solution for oil spills. Green Salon Collective.

https://www.greensaloncollective.com/blogs/education/how-to-make-a-hair-boom-

a-sustainable-solution-for-oil-spills?srsltid=AfmBOoqZR-

2FM3Or1zxLdG6g2A6TH_e0bhoO60J98sRLwmGV6wXp5rNX

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Guiao, M. A. (2023, March 15). Human hair and coconut fibers in oil spills:

What’s best? SPOT.ph. https://www.spot.ph/newsfeatures/policy/104066/human-

hair-and-coconut-fibers-in-oil-spills-a5229-20230315

Kusuma, N. (2022). Hair vs. Oil Spill, for the Environment. Green Network

Asia. https://greennetwork.asia/news/hair-vs-oil-for-the-environment/

Lovindeer, R., Mynott, S., Porobic, J., Fulton, E. A., Hook, S. E., Pethybridge,

H., Allen, S. E., Latornell, D., Morzaria-Luna, H. N., & Melbourne-Thomas, J. (2023).

Ecosystem-level impacts of oil spills: A review of available data with confidence

metrics for application to ecosystem models. Environmental Modeling &

Assessment, 28, 939–960. https://doi.org/10.1007/s10666-023-09905-1

Murray, M. L., et al. (2020). Decontaminating Terrestrial Oil Spills: A

Comparative Assessment of Dog Fur, Human Hair, Peat Moss and Polypropylene

Sorbents. Environments, 7(7), 52. https://doi.org/10.3390/environments7070052

San Juan, R. (2024) How human hair and other common materials can help

clean Bataan oil spill.

https://manilastandard.net/news/314478590/how-human-hair-other-common-

materials-can-help-clean-bataan-oil-spill.html

Subramoniapillai, V., & Thilagavathi, G. (2022). Oil spill cleanup by natural

fibers: A review. Research Journal of Textile and Apparel, 26(4), 390-404.

https://doi.org/10.1108/RJTA-03-2021-0031

The Straits Times. (2023) Tourist paradise Palawan prepares to tackle

Philippine oil spill with human hair, old clothes.

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https://www.straitstimes.com/asia/se-asia/tourist-paradise-palawan-prepares-to-

tackle-philippine-oil-spill-with-human-hair-old-clothes

Thi, N., et al., (2023). Research for Oil-Absorbing carpets using hair

materials. Journal of Thu Dau Mot University, 388–401.

https://doi.org/10.37550/tdmu.ejs/2023.03.465

Leigh-Hewitson, N. (2022, May 19). Mats made from human hair are cleaning

up oil spills. CNN. https://edition.cnn.com/2022/05/19/world/oil-spills-human-hair-

matter-of-trust-spc-scn-intl-c2e/index.html

Thomas, J. C. (2023). Revolutionary solution: Hair as an effective tool to

clean oil spills. Medium. https://medium.com/carom-consulting/revolutionary-

solution-hair-as-an-effective-tool-to-clean-oil-spills-f92d5a7706a4

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Chapter 3

Methodology

This chapter presents the discussion of the research methodology used by

the researchers. It includes the research design, population and sampling scheme,

description of the respondents, data gathering procedures, sampling technique and

instrumentation.

Method of Research

Brown, J. (2021) proclaims that research is a structured and logical process,

aimed at addressing problems or answering specific questions. Furthermore, T. L.

and McBurney, D. H. (2020) states that “Experimental research design allows

researchers to determine the impact of an intervention.”

Experimental research can be conducted in various settings, including;

laboratories, classrooms, and field environments. In this study, the experimental

research is conducted at Learn & Explore Montessori School (LEMS), focusing on

the effectiveness of hair-infused nets in mitigating oil spills.

Fraenkel, J. R. and Wallen, N. E. (2019) identifies several types of

experimental research designs, such as; classical experimental design, pre-

experimental design, quasi-experimental design, and special designs. Experimental

research is unique as it directly attempts to influence a particular variable and

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involves one or more dependent variables. Typically, an experiment includes two

groups; an experimental group and a control group—although it can be conducted

with a single group.

This study uses a quantitative experimental research method with statistical

techniques to evaluate the effectiveness of hair-infused nets. Students at Learn &

Explore Montessori School (LEMS) will evaluate the hair-infused nets to simulated

oil spills.

This design is considered pre-experimental because it involves only one

group without a control group.

Process of Experiment:

Designed an infused net for

oil spill collection that

prioritizes safety,

effectiveness, and

sustainability.

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Built the foundation for the

design using plywood and a

hand saw, ensuring precise

cuts and measured angles for

a refined finish.

Sanded the wood using fine-

grit sandpaper to ensure a

smooth and clean surface.

Applied waterproof wood glue to

bond the plywood base together,

ensuring a strong and durable

connection. The glued assembly

was then left to dry for 1-2 hours

for the structure’s stability.

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Reinforced the structure by

hammering nails into the wood,

ensuring additional support and

stability. In able to withstand

water currents and density.

Using the fibrous material

(hair), carefully create

removable hair mats by

spreading and manipulating the

fibers on a flat surface.

Carefully sewn the abaca

material onto the base of the

infused net, ensuring a

seamless integration.

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Sewn and sealed the

removable hair mats into the

net, ensuring they are securely

attached.

The product is finished, tested,

and evaluated.

Population, Sample Size, and Sampling Technique

The population for this study consists of all Grade 11 and Grade 12 senior

high school students enrolled in the Science, Technology, Engineering, and

Mathematics (STEM) strand at Learn & Explore Montessori School. A total of one

hundred forty (140) students will be selected to participate in the study.

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The study will use a census sampling technique. All students from each

class section—Grade 11 Lincoln, Grade 12 Edison, and Pythagoras—will be

included to ensure comprehensive representation across all sections. The selected

students will be aged between 15 and 19 years old.

Description of Respondents

The chosen respondents of this study will be a select group, consisting of

Grade 11 and 12 senior high school students within the strand of Science,

Technology, Engineering, and Mathematics (STEM)—all of whom are enrolled at

Learn & Explore Montessori School (LEMS).

Research Instrument

The researchers will employ a questionnaire as the primary research

instrument for this study. This method is expected to effectively gather respondents'

perspectives and observations, thereby enhancing the generalizability and external

validity of the findings.

Data-Gathering Procedure

Prior to commencing the study, the researchers secured permission from the

principal of Learn and Explore Montessori School, Inc. to access the names of the

students involved in the evaluation. Additionally, a dry-run test was conducted to

validate the research instrument, ensuring that each item was analyzed for

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plausibility before being administered to the Senior High School students at Learn

and Explore Montessori School, Inc. This process ensured the reliability and

relevance of the questionnaire used in the study.

Statistical Treatment of Data

The statistical treatment of data for this quantitative research involves

employing various statistical techniques to analyze the questionnaire responses.

Descriptive statistics will be used to summarize the data—including calculating

measures of central tendency such as the mean, median, and mode, as well as

measures of variability like the standard deviation. The mean will be computed using

the formula

, where X represents the mean, is the sum of all scores, and N is the number

of respondents—Additionally, the data will be processed and analyzed using

statistical software like Excel to ensure accuracy and efficiency. This comprehensive

approach will provide meaningful insights into the following research questions.

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References:

Brown, J. (2021). *Research methodology: A step-by-step guide for

beginners*. Sage Publications.

Fraenkel, J. R., & Wallen, N. E. (2019). *How to design and evaluate research

in education* (10th ed.). McGraw-Hill Education.

White, T. L., & McBurney, D. H. (2020). *Research methods* (10th ed.).

Cengage Learning.

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Data-Gathering Procedure

Statistical Treatment of Data

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Chapter 4

Presentation, Analysis and Interpretation of Data

This chapter discusses the data results which we gathered to this research.

The data were presented in tabular form and analyzed the research questions.

Table 1

Distribution of respondents according to their Age

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Chapter 5

Summary, Conclusions and Recommendations

In this chapter, we summarize the overall content of our study and present

the analysis and interpretation of every data collected.

Findings

Conclusions

Recommendations

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Bibliography

Books

Journals (including monographs and other research publications)

Periodicals

Unpublished Thesis/Dissertation

On-line Sources

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Appendices

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Questionnaire (with cover letter)

Request letter to conduct survey

Documents, memoranda, data/figures (if any)

Sample statistical computations or print-outs

Curriculum Vitae

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