In today's interconnected world, access to information is crucial for personal growth, education, and empowerment. Unfortunately, not everyone has the privilege of readily accessing the vast resources available on the internet. Bridging this digital divide and making information easily accessible to everyone has become a driving force behind my career aspirations. With a STEM education, particularly focusing on the electrical and computer fields, I aim to contribute to the development of technologies that can democratize access to the internet and enhance the affordability and availability of quality products for lower-income communities. The field of electrical and computer engineering has captivated my interest due to its potential for groundbreaking innovations and its ability to shape the way we interact with technology. Through my studies, I have delved into the intricate workings of computers, from their hardware components to software systems. This knowledge has provided me with a deep understanding of how technology functions and the opportunities it presents for societal transformation. By leveraging my STEAM education, I envision a future where I can utilize my expertise to create innovative solutions that bridge the digital divide. One aspect that I am particularly drawn to is enhancing internet accessibility. The internet has become a gateway to knowledge, information, and opportunities, but many individuals, especially those from marginalized communities or regions with limited infrastructure, still struggle to connect. I aspire to be at the forefront of developing technologies that can overcome these barriers, such as wireless communication systems or satellite-based internet solutions, to ensure that every individual, regardless of their socio-economic background, can reap the benefits of a connected world. Furthermore, I am deeply committed to addressing the issue of affordability. In today's consumer-driven society, high-quality products are often priced out of reach for lower-income communities, exacerbating existing inequalities. By applying my expertise in electrical and computer engineering, I aim to develop cost-effective solutions and innovative business models that make technology more accessible. This could involve designing energy-efficient devices that reduce power consumption and minimize running costs or working on projects that promote the reuse and recycling of electronic components to make technology more sustainable and affordable. Additionally, I believe that education plays a vital role in bridging the digital divide. As part of my long-term vision, I aspire to contribute to educational initiatives that empower individuals with the knowledge and skills needed to navigate the digital landscape. By collaborating with organizations and educational institutions, I hope to develop programs that provide training in basic computer literacy, coding, and digital citizenship to underserved communities. Through these initiatives, I aim to equip individuals with the necessary tools to thrive in the digital age and actively participate in the global information ecosystem. In conclusion, my passion for making information easily accessible to everyone, coupled with my interest in the electrical and computer side of STEAM, fuels my aspirations to create positive change in the world. Through my education and expertise, I hope to contribute to the development of technologies that bridge the digital divide, enhance internet accessibility, and make quality products more affordable and available to lower-income communities. By leveraging innovation, sustainable practices, and educational initiatives, I strive to create a future where every individual has equal opportunities to learn, grow, and participate in the global digital community.

As a child, I found immense joy and satisfaction in exploring the principles of physics and engineering through hands-on projects. One of my early endeavors was the creation of simple pulley machines. I would gather household items like strings, small wheels, and weights, and set up makeshift systems to understand the concepts of force, tension, and mechanical advantage. Through trial and error, I learned how different arrangements and configurations affected the efficiency and functionality of the pulley systems. Building igloos in my front yard was another exciting endeavor that fueled my passion for STEM. During the winter months, I would eagerly wait for the first snowfall, and as soon as a substantial amount had accumulated, I would dive into creating my own architectural marvels. Armed with shovels and my imagination, I would carefully mold and shape the snow into blocks, meticulously stacking them to form the iconic dome-shaped structure of an igloo. This activity not only sparked my creativity but also taught me the principles of structural stability and balance. These seemingly simple childhood projects had a profound impact on my career path. They instilled in me a sense of wonder and curiosity about how things work and how they can be improved. The process of designing and building pulley machines and igloos taught me the importance of hands-on experimentation, problem-solving, and perseverance. It nurtured my ability to think critically, analyze challenges from different angles, and develop innovative solutions. Moreover, these early experiences fostered a deep appreciation for the practical application of scientific and engineering principles. I realized that by understanding the fundamental concepts behind the pulley systems and structural stability of the igloos, I could expand my understanding to tackle more complex real-world problems. Looking into the future, I envision myself as an integral part of a dynamic team, working on the forefront of groundbreaking technology. I aspire to be involved in projects that push the boundaries of innovation and have a transformative impact on the world. Whether it's developing advanced artificial intelligence systems, pioneering sustainable energy solutions, or contributing to cutting-edge medical research, my ultimate goal is to create something that will leave a lasting positive influence on society. In a post-graduation scenario, I see myself leveraging my knowledge and skills to tackle complex challenges and contribute to the advancement of scientific knowledge and technological progress. I aim to be at the forefront of research and development, collaborating with like-minded individuals to pioneer new inventions, improve existing technologies, and create disruptive solutions that address pressing global issues. Moreover, I am committed to lifelong learning and continuous growth. I intend to stay abreast of the latest advancements in my field, attending conferences, participating in workshops, and engaging in collaborative projects to expand my knowledge and expertise. By remaining adaptable and embracing emerging technologies, I can stay ahead of the curve and make significant contributions to the ever-evolving landscape of science and technology. In summary, my inspiration to choose this career path stems from my lifelong affinity for STEM subjects, combined with a relentless drive to make a positive impact on the world. Post-graduation, I see myself as a key player in the realm of innovation, working on cutting-edge technologies, and leaving a lasting legacy through my contributions to scientific and technological progress.

I come from a lineage of engineers and innovative thinkers who have instilled in me a deep passion for problem-solving and a drive to push boundaries. Growing up, I was surrounded by the remarkable achievements of my family members, which inspired me to follow in their footsteps. My mother, a trailblazing chemical engineer, broke through barriers as one of the few women in STEM during her college years. Her unwavering determination and resilience in the face of adversity have been a constant source of inspiration for me. Witnessing her navigate and excel in a male-dominated field has instilled in me the belief that gender should never limit one's pursuit of a career and that diversity and inclusion are crucial for innovation. Similarly, my father, a software engineer, has always been at the forefront of technological advancements. His ability to translate innovative ideas into practical solutions has shown me the transformative power of engineering in shaping the future. His passion for his work and the way he embraces new challenges have been instrumental in shaping my own engineering aspirations. However, it is not just my parents who have influenced my engineering journey. My grandmother, a true pioneer, was the first woman in her town to obtain her driver's license. Despite societal expectations and limitations imposed on women of her time, she fearlessly pursued her dreams and proved that gender should never hinder one's pursuit of personal freedom and independence. Her spirit of perseverance, courage, and lifelong learning has imprinted on me a strong belief in challenging societal norms and pushing boundaries. Even at the age of 81, she continues to drive, embodying the spirit of resilience. Her example has taught me the importance of embracing new opportunities and embracing a mindset of lifelong learning. From a young age, I found myself captivated by the mechanics of the world around me. I eagerly tinkered with pulleys, constructing simple systems to understand how things worked. These early experiences ignited my curiosity and laid the foundation for my passion for engineering. I am driven by the belief that through innovative thinking and problem-solving, I can contribute to advancements that will shape a better future for generations to come. Inspired by the legacy of my family's engineering achievements, I am committed to pursuing a career in engineering. I aspire to build upon their foundation, leveraging my skills, creativity, and determination to make a meaningful impact in my chosen field. I am excited to embrace the challenges, opportunities, and limitless possibilities that lie ahead as I embark on this journey as an engineer.

Who gives screwdrivers as an end-of-year gift to teachers? Well, let me tell you a little story about my family's unique gift-giving approach. While most people were scratching their heads, we confidently handed out those trusty tools. You see, my mom is an advocate for practicality, always advocating for gifts that won't gather dust on a shelf. Her motto: "Why give something that's just going to sit there? Let's be practical!" Her logistical thinking seeped into my brain, shaping how I view the world, especially when it comes to my passion for engineering. Engineering is all about finding practical solutions to real-world problems. It's like being a superhero, armed with calculators and blueprints instead of capes and superpowers. We engineers are wired to think practically, making our designs not just visually stunning but also functional powerhouses. So when my mom suggested screwdrivers as gifts, it was like a light bulb moment. Practicality and engineering go together like peanut butter and jelly—unconventional yet strangely satisfying. Our design must not only be aesthetically pleasing but also highly functional and user-friendly. We, as engineers, strive to create solutions that meet specific requirements and optimize functionality. We aim to create designs that not only turn heads but also make people say, "Wow, this actually works!" My family's obsession with functionality made our screwdriver gifts a stroke of genius. After all, who can deny the usefulness of a trusty screwdriver? Growing up in a household that values practicality and functionality has been a value deeply rooted in my engineering aspirations. It's like having my own superhero training academy, where practical thinking is the ultimate superpower. This mindset allows me to tackle engineering problems with a dose of humor and a dash of logic. While others might get lost in dreams of imagination, I keep my feet firmly planted in the land of practicality, crafting designs that not only make jaws drop but also solve real-world problems. So there you have it, the tale of screwdrivers as end-of-year gifts and how practicality and functionality shape the world of engineering. While some may question our gift choices, we engineers know that practicality and a touch of humor can work wonders. The ability to create designs that are not only visually appealing but also highly functional sets us apart. So, here's to embracing the unconventional, channeling our inner practicality, and engineering a future where screwdrivers become the heroes we never knew we needed.