thesis statement for technology essay

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Technology Thesis Statement Examples, How to Write, Tips

What is the Technology Thesis Statement? – Definition

What is an example of a technology thesis statement, 100 technology statement examples.

• Artificial Intelligence : “The integration of AI in healthcare can revolutionize patient diagnosis, but ethical constraints need addressing.”
• Virtual Reality : “Virtual reality’s potential in education extends beyond immersion, offering tailored learning experiences.”
• Blockchain : “Blockchain technology, while disruptive, promises to make financial transactions more transparent and secure.”
• Cybersecurity : “The rise of IoT devices demands stronger cybersecurity measures to prevent unprecedented breaches.”
• Biotechnology : “CRISPR technology might hold the key to genetic disorders, yet its ethical implications are vast.”
• E-Commerce : “The shift to e-commerce has fundamentally changed consumer behavior, prioritizing convenience over brand loyalty.”
• 5G Technology : “The deployment of 5G will enhance IoT capabilities, but infrastructure challenges persist.”
• Green Technology : “Solar panel advancements are crucial for sustainable energy but require policy support for widespread adoption.”
• Robotics : “Robotic automation in manufacturing accelerates production but poses employment challenges.”
• Wearable Tech : “Wearables are transforming health monitoring, but data privacy remains a significant concern.”
• Quantum Computing : “While quantum computers promise to solve complex problems in seconds, they also pose threats to current encryption methods.”
• Space Exploration : “The commercialization of space travel opens new frontiers for tourism but also raises environmental and safety concerns.”
• Augmented Reality : “Augmented reality in retail can enhance customer experience, yet it challenges traditional shopping norms.”
• Drones : “The proliferation of drone technology in delivery services improves efficiency but brings forth airspace regulation issues.”
• Nano-Technology : “Nanotechnology in medicine offers targeted drug delivery but has unexplored long-term effects on human health.”
• Self-Driving Cars : “Autonomous vehicles could drastically reduce traffic accidents, but their integration requires comprehensive legal frameworks.”
• Smart Cities : “Smart cities optimize urban living conditions; however, they highlight disparities in digital access.”
• Edge Computing : “Edge computing decentralizes data processing, enhancing IoT performance, but it raises concerns about localized data breaches.”
• 3D Printing : “3D printing revolutionizes manufacturing and healthcare but challenges intellectual property rights.”
• Digital Assistants : “Voice-activated digital assistants streamline daily tasks but provoke debates on user surveillance and privacy.”
• Telemedicine : “Telemedicine democratizes healthcare access, yet questions arise about its efficacy compared to in-person consultations.”
• Big Data : “Big data analytics can transform industries, but the potential misuse of information is a growing concern.”
• Cloud Computing : “Cloud adoption offers businesses scalability and flexibility, though it introduces unique cybersecurity challenges.”
• Digital Currency : “Cryptocurrencies like Bitcoin could redefine financial systems, but their volatility and regulatory gray areas persist.”
• Gaming Technology : “Esports and gaming technology foster global communities, but they also spotlight issues of digital addiction.”
• Neural Networks : “Neural networks enhance machine learning capabilities but make algorithm decision-making processes more opaque.”
• Mixed Reality : “Mixed reality blends the best of AR and VR, offering innovative solutions in training but requires significant hardware investments.”
• Social Media Algorithms : “Algorithms on social platforms shape user behavior, leading to questions about influence and manipulation.”
• Broadband Technology : “Universal broadband access can bridge educational gaps, but infrastructural and cost barriers remain.”
• Digital Learning Platforms : “Online education platforms democratize learning but challenge traditional educational paradigms.”
• Agricultural Tech : “Smart farming through tech can optimize yields, but its cost can exclude small-scale farmers.”
• Mobile Banking : “Mobile banking boosts financial inclusion in developing nations but raises issues of digital literacy.”
• Chatbots : “Chatbots in customer service optimize responsiveness but can depersonalize the user experience.”
• Facial Recognition : “Facial recognition tech can enhance security measures but has sparked debates on privacy and misuse.”
• Deepfakes : “Deepfake technology, while impressive, poses significant threats to misinformation and trust in media.”
• Health Tech : “Wearable health devices offer real-time monitoring, yet there’s growing concern over data security and interpretation accuracy.”
• Marine Technology : “Underwater drones present opportunities for oceanic exploration, but their use raises environmental concerns.”
• Sustainable Tech : “Technological solutions to waste management are crucial for urban sustainability, but require societal behavior changes for maximum effectiveness.”
• Language Translation : “Real-time translation tools are bridging communication gaps, but can’t replace the nuance of human translators.”
• Online Privacy : “VPN services enhance online privacy, yet they introduce challenges in legal jurisdictions and data accountability.”
• Internet of Things (IoT) : “While IoT connects everyday devices, it also increases potential points of cyber vulnerabilities.”
• Haptic Technology : “Haptic tech holds potential in virtual training environments but demands rigorous testing for consistent real-world replication.”
• Renewable Energy Tech : “Wind energy is a clean alternative, yet its land use and noise pollution issues remain unresolved.”
• Genomic Editing : “While genomic editing can prevent hereditary diseases, its potential misuse in ‘designer babies’ raises ethical debates.”
• E-Learning : “Digital classrooms can provide education continuity during crises, but highlight inequalities in tech accessibility.”
• Wireless Charging : “The evolution of wireless charging technology promotes convenience but necessitates universal standardization.”
• Retail Tech : “Smart mirrors in retail enhance consumer experience but can potentially infringe on privacy rights if misused.”
• Data Storage : “Quantum data storage could revolutionize information keeping, yet the transition from classical methods is fraught with challenges.”
• Livestreaming Tech : “The growth of livestreaming platforms boosts creator economies, but presents issues of content moderation.”
• Digital Twins : “Digital twins in manufacturing optimize production processes, but require significant data management and interpretation efforts.”
• Animal Tech : “RFID tags in wildlife conservation assist in species monitoring but raise concerns about animal welfare and interference.”
• Thermal Imaging : “Thermal imaging in public spaces can enhance security, but its widespread use prompts privacy debates.”
• Financial Tech (FinTech) : “Digital-only banks provide unparalleled convenience, yet face skepticism over their ability to handle financial crises.”
• Audio Tech : “Spatial audio in headphones creates immersive experiences, but its effects on auditory health are under-researched.”
• Nano-Biotechnology : “Nano-biotech in targeted drug delivery holds promise, but its long-term interactions with biological systems remain unknown.”
• Location-Based Services : “Geolocation tools in apps enhance user experience, but inadvertently contribute to data surveillance concerns.”
• Human-Machine Interface : “Brain-computer interfaces might redefine communication for the differently-abled, but they also present neuroethical dilemmas.”
• Gig Economy Platforms : “Tech-driven gig economies offer flexible employment, but often at the cost of job security and benefits.”
• Environmental Monitoring : “Satellite technology for environmental monitoring is crucial for climate change mitigation, but depends on international collaboration and data-sharing.”
• Entertainment Tech : “Augmented reality in entertainment redefines audience engagement, but challenges traditional content creation paradigms.”
• Food Technology : “Lab-grown meats could significantly reduce the environmental impact of livestock, but their societal acceptance and taste equivalency remain under scrutiny.”
• Telecommunication : “The transition to satellite-based internet services can enhance global connectivity but introduces space debris management challenges.”
• Digital Art and Media : “Digital art platforms democratize artistic expression, though they raise concerns over copyright and originality.”
• Fitness Tech : “Smart gyms utilize AI to personalize workout regimens, but their reliance on user data raises privacy issues.”
• Medical Imaging : “AI-driven medical imaging can enhance diagnostic precision, yet its integration demands rigorous validation against traditional methods.”
• Urban Mobility : “Electric scooters in urban centers promote green mobility, but their indiscriminate use poses pedestrian safety risks.”
• Adaptive Tech : “Adaptive technologies for the differently-abled democratize access, but their high costs can limit widespread adoption.”
• Cryptographic Tech : “Post-quantum cryptography aims to secure data against future quantum attacks, but its practical implementation remains challenging.”
• Travel and Navigation : “AR-based navigation tools can revolutionize travel experiences, but they demand robust infrastructure to prevent inaccuracies.”
• Event Technology : “Virtual event platforms offer global outreach, but they challenge the conventional understanding of networking and engagement.”
• Consumer Electronics : “Flexible electronics pave the way for innovative gadgets, yet their durability and recyclability are concerns.”
• Space Mining : “Space mining could answer Earth’s resource scarcity, but its feasibility and impact on space ecosystems are contentious.”
• Fashion Tech : “Smart fabrics offer dynamic design possibilities, but their production processes raise environmental questions.”
• Elderly Tech : “Tech solutions for the elderly improve quality of life, but require intuitive designs to ensure ease of use.”
• Cyber Physical Systems : “Integrating physical processes with computer-based algorithms promises efficiency, but challenges real-time adaptability.”
• Rehabilitation Tech : “VR in physical rehabilitation offers immersive therapy, but its long-term efficacy compared to traditional methods is under exploration.”
• Collaborative Platforms : “Cloud-based collaborative tools redefine workplace productivity, but their over-reliance can risk centralizing data control.”
• Quantum Sensing : “Quantum sensors could redefine detection limits in various fields, but their scalability in real-world applications remains a hurdle.”
• Learning Management Systems (LMS) : “LMS platforms facilitate organized e-learning, but their design must prioritize user-friendliness for diverse user groups.”
• Aerospace Tech : “Electric aircraft represent the future of eco-friendly travel, but the transition requires breakthroughs in battery technology.”
• Hydroponic Farming : “Tech-driven hydroponic systems can increase agricultural yield in urban areas, but the initial setup costs and energy consumption are deterrents.”
• Waste Management Tech : “Automated waste sorting can significantly enhance recycling rates, but its success demands public awareness and participation.”
• Digital Publishing : “E-books and digital publications increase accessibility, but they also challenge traditional publishing economics.”
• Therapeutic Tech : “Biofeedback apps promise personalized stress management, but their recommendations need backing by robust clinical research.”
• Molecular Electronics : “Molecular-scale electronics could miniaturize devices further, but their stability and manufacturing pose significant challenges.”
• Industrial IoT : “Integrating IoT in industries optimizes production and maintenance, but its seamless functioning demands strong cybersecurity protocols.”
• Photonics : “Photonics in data transmission offers higher speeds, but its integration into current infrastructure is complex.”
• Marine Energy : “Harnessing oceanic energy can be a renewable power solution, but its impact on marine ecosystems needs careful evaluation.”
• Prosthetics Tech : “Advanced prosthetics with AI integration promise life-changing mobility, but the cost of development and acquisition challenges their accessibility.”
• Resilient Infrastructure : “Smart materials in construction adapt to environmental changes, but the long-term sustainability and economic feasibility remain subjects of research.”
• Optogenetics : “Optogenetics holds transformative potential for neurological disorders, but its ethical application in humans is still debated.”
• Entertainment Streaming : “Streaming platforms are reshaping entertainment consumption, but they also spotlight issues of digital rights and royalties.”
• Water Purification Tech : “Nanotechnology in water purification can address global water crises, but its ecological impact requires close monitoring.”
• Transportation Tech : “Hyperloop transportation promises rapid transits, but the infrastructural and safety challenges are monumental.”
• Pedagogical Tools : “AI-driven pedagogical tools individualize learning, but there’s a risk of over-reliance and diminished human interaction.”
• Remote Work Tech : “Advanced collaborative tools enable effective remote work, but they also blur the lines between professional and personal boundaries.”
• Sensor Technology : “Smart sensors in agriculture optimize irrigation and reduce water wastage, but their implementation costs can be prohibitive for small-scale farmers.”
• Food Preservation : “Innovative food preservation technologies can reduce global food wastage, but their energy consumption and efficiency need optimization.”
• Gaming Interfaces : “Brain-computer interfaces in gaming promise immersive experiences, but their long-term effects on neurological health are underexplored.”
• Material Science : “Meta-materials can revolutionize optics and telecommunications, but their large-scale production and integration pose significant challenges.”

Technology Thesis Statement Examples for Argumentative Essay

• Social Media’s Impact : “While some argue that social media strengthens interpersonal relationships, it can also be held responsible for eroding face-to-face interactions and deepening feelings of social isolation.”
• Digital Dependency : “The increasing reliance on smartphones has jeopardized our cognitive abilities, leading to diminished memory recall and reduced attention spans.”
• Online Privacy : “In the digital age, online privacy has become an illusion, with corporations and governments frequently infringing upon personal data rights.”
• Virtual Reality : “Despite the immersive experiences offered by virtual reality, its overuse can blur the distinction between the real and virtual worlds, leading to psychological implications.”
• Technological Progress vs. Job Security : “Technological advancements, while driving efficiency and progress, also threaten traditional jobs, potentially leading to economic disparities.”
• Digital Currency : “Cryptocurrencies, despite their volatile nature, represent a significant shift in the financial landscape and have the potential to decentralize traditional banking systems.”
• E-books vs. Traditional Books : “While e-books offer convenience and accessibility, they can never replace the tactile experience and emotional connection readers have with physical books.”
• The Internet and Democracy : “The internet, although hailed as a tool for democratizing information, also presents threats like misinformation campaigns that can undermine democratic processes.”
• Tech Giants and Monopoly : “The unchecked rise of tech giants poses a threat to competition, potentially stifling innovation and enabling monopolistic behaviors.”
• Green Technology : “Investing in green technologies is not merely an environmental imperative but also an economic opportunity that promises both sustainable growth and job creation.”

Thesis Statement Examples for Technology in Education

• Digital Literacy : “Incorporating digital literacy in education is crucial, not just for technological proficiency but for navigating the modern world responsibly and critically.”
• Online Learning : “Online education, while offering flexibility and accessibility, can lack the personal touch and hands-on experiences that traditional classrooms provide.”
• EdTech in Early Childhood : “Introducing technology in early childhood education can foster creativity and adaptability, but it must not overshadow foundational learning experiences.”
• Gamification of Learning : “Gamifying education can increase student engagement, but there’s a risk of prioritizing rewards over actual knowledge acquisition.”
• Tech in Special Education : “Technology has the potential to revolutionize special education, offering tailored learning experiences to cater to individual needs.”
• Digital Distractions : “The integration of technology in classrooms, while beneficial, also brings the challenge of combating digital distractions and ensuring focused learning.”
• Open Source Learning : “Open-source educational resources can democratize education, but there’s a need to ensure the quality and credibility of these materials.”
• AR and VR in Education : “Augmented and virtual reality tools in education can offer immersive learning experiences, but their efficacy compared to traditional methods remains to be thoroughly evaluated.”
• Adaptive Learning Systems : “Adaptive learning technologies promise personalized education, but reliance on them must be balanced with human mentorship.”
• Digital Divide : “The push for technology in education must also address the digital divide, ensuring that students from all socioeconomic backgrounds have equal access.”

Thesis Statement Examples on Technology in Artificial Intelligence

• Ethical AI : “As AI systems grow in complexity, there’s an urgent necessity to establish ethical guidelines that prioritize human values and safety.”
• AI in Warfare : “The integration of AI in military operations, while enhancing precision, raises alarming concerns about the lack of human judgment in life-and-death decisions.”
• Bias in Machine Learning : “Unchecked, machine learning models can perpetuate and amplify societal biases, necessitating rigorous audit processes before deployment.”
• AI and Employment : “The rise of automation and AI in industries risks a significant displacement of the workforce, highlighting the need for societal adaptation and job retraining.”
• Emotion AI : “Artificial Intelligence designed to recognize and respond to human emotions could revolutionize industries, but also brings concerns about privacy and emotional manipulation.”
• Singularity : “The potential for an AI singularity, where AI surpasses human intelligence, necessitates preemptive safeguards to ensure the alignment of AI goals with humanity’s best interests.”
• AI in Healthcare : “While AI in healthcare can lead to more accurate diagnoses, it must complement, not replace, the critical thinking and empathy of medical professionals.”
• Deepfakes and Reality : “The advent of deepfake technology, driven by AI, challenges our trust in visual content, pressing for the development of verification tools.”
• AI and Creativity : “The surge of AI in creative fields, from art to music, questions the uniqueness of human creativity and the future role of AI as co-creators.”
• General AI vs. Narrow AI : “While narrow AI excels in specific tasks, the pursuit of general AI, mirroring human intelligence, presents unprecedented challenges and ethical dilemmas.”

Thesis Statement Examples on Medical Technology

• Telemedicine : “Telemedicine, while increasing healthcare accessibility, requires rigorous regulation to ensure the quality of care and the privacy of patient data.”
• Gene Editing : “CRISPR and other gene-editing technologies hold promise for eradicating genetic diseases, but they also raise ethical concerns about the potential misuse in creating ‘designer babies’.”
• Wearable Health Tech : “Wearable health devices empower individuals to monitor their health, but also bring concerns about data privacy and the accuracy of health information.”
• 3D Printed Organs : “3D printing of organs could revolutionize transplants, but the technology must first overcome challenges in biocompatibility and functionality.”
• Robot-Assisted Surgery : “Robot-assisted surgeries promise precision and minimized invasiveness, yet the high costs and training requirements present hurdles for widespread adoption.”
• Mental Health Apps : “Digital tools for mental health can democratize access to resources, but they cannot replace the nuanced care provided by human professionals.”
• Nanotechnology in Medicine : “The integration of nanotechnology in medicine offers targeted treatments and drug delivery, but long-term effects on the human body remain largely unknown.”
• Virtual Reality in Therapy : “VR therapies hold potential for treating phobias and PTSD, but research must ensure that virtual experiences translate to real-world recovery.”
• EHR (Electronic Health Records) : “While EHRs streamline medical data management, concerns arise about patient data security and system interoperabilities.”
• AI-driven Diagnosis : “AI-driven diagnostic tools can analyze vast data quickly, but they should act as aides to human clinicians, not replacements.”

Thesis Statement Examples for Technology Essay

• Digital Age and Mental Health : “The digital age, while connecting the world, has also escalated mental health issues, prompting a deeper examination of our relationship with technology.”
• Augmented Humanity : “Biohacking and body augmentations, powered by tech, are pushing the boundaries of human capabilities but also raise ethical questions about self-modification and societal implications.”
• Cybersecurity : “In a hyper-connected world, cybersecurity is not just a technical challenge but a fundamental aspect of ensuring personal rights and national security.”
• Sustainable Technologies : “The rise of sustainable technologies is not a mere trend but a necessity to ensure the future survival and prosperity of our planet.”
• Digital Nomadism : “The evolution of remote work technologies has birthed the digital nomad culture, reshaping traditional perceptions of work-life balance and productivity.”
• Space Technologies : “Emerging space technologies, from satellite constellations to interplanetary exploration, hold the promise of reshaping our understanding of the universe and our place in it.”
• Tech and Pop Culture : “The infusion of technology into pop culture, from movies to music, reflects society’s struggles, aspirations, and dreams in the digital age.”
• Digital Archiving : “The practice of digital archiving is crucial not just for preserving history but for ensuring accountability in the digital era.”
• The Right to Disconnect : “As work and personal life boundaries blur due to technology, there’s a rising demand for the ‘right to disconnect’, ensuring mental well-being.”
• Tech in Urban Planning : “Smart cities, driven by technology, promise enhanced living experiences, but they also raise concerns about surveillance and the loss of privacy.”

Thesis Statement Examples for Technology in the Classroom

• Digital Collaboration : “Collaborative tools in classrooms foster teamwork and communication but necessitate guidelines to ensure productive and respectful engagements.”
• Interactive Learning : “Interactive whiteboards and digital simulations can enhance understanding and retention, but educators must ensure they don’t become mere entertainment.”
• Classroom Analytics : “The use of analytics in classrooms promises personalized feedback and interventions, but raises concerns about student privacy and data misuse.”
• Digital Textbooks : “While digital textbooks offer dynamic content and portability, the potential loss of traditional reading skills and tactile learning must be addressed.”
• Flipped Classrooms : “Flipped classrooms, facilitated by technology, encourage student-centered learning at home, but require a redefinition of classroom roles and responsibilities.”
• Tech and Special Needs : “Assistive technologies in classrooms have democratized education for students with special needs, but teachers need training to utilize them effectively.”
• Student Engagement : “Gamified learning platforms can significantly increase student engagement, but there’s a risk of overemphasis on rewards over actual learning outcomes.”
• Distance Learning : “Technology has made distance learning feasible and expansive, yet the challenges of student isolation and self-regulation need addressing.”
• Digital Citizenship : “Teaching digital citizenship in classrooms is essential in the modern age to ensure students use technology responsibly and ethically.”
• Classroom VR : “Introducing virtual reality in classrooms can offer immersive educational experiences, but its efficacy and potential overstimulation issues need thorough research.”

What is a good thesis statement for technology?

• Precision : Clearly articulate your viewpoint on the technological matter, ensuring it isn’t vague.
• Debate Potential : Present a point open to discussion or counterargument, not just a plain fact.
• Current Relevance : Address up-to-date technological advancements or concerns.
• Conciseness : Stay direct and avoid broad overviews.

How do you write a Technology Thesis Statement? – Step by Step Guide

• Pinpoint a Specific Tech Area : Instead of a broad area like “technology,” zoom into niches: e.g., “Blockchain’s role in data security” or “Virtual Reality in education.”
• Undertake Preliminary Research : Grasp the current scenario of your selected area. Identify ongoing debates, breakthroughs, and challenges.
• State Your Assertion : Your research will guide you to a specific stance. This becomes your thesis’s foundation.
• Check for Debate Potential : Ensure that your assertion isn’t just stating the obvious but invites discussion.
• Maintain Brevity : Keep it succinct—usually, one to two sentences will suffice.
• Iterate : As your research or essay progresses, you might find the need to fine-tune your statement.

Tips for Writing a Thesis Statement on Technology Topics

• Stay Informed : With technology’s rapid pace, being up-to-date is essential. Your thesis should resonate with current technological dialogues.
• Steer Clear of Jargons : If your audience isn’t tech-centric, simplify or explain tech terms for clarity.
• Dive into Ethical Angles : Tech topics often interweave with ethical considerations. Tackling these adds depth.
• Solicit Feedback : Sharing your thesis with colleagues or mentors can offer new viewpoints or refinements.
• Employ Assertive Language : Words like “should,” “must,” or “will” give your statement authority.
• Remain Adaptable : If new evidence emerges as you write, be open to reworking your thesis slightly.
• Link to Broader Implications : Relating your tech topic to wider societal or global issues can offer added layers of significance.
• Ensure Clarity : Your thesis should have one clear interpretation to avoid reader confusion.

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Good thesis statment about the cause/effect on technology

Destinyt101yes 1 / -   Jun 6, 2010   #1 This essay will be about the cause and effect that technology has on today's society when it comes to cell phones, iPods, video games, computers, internet, cable and sateillite television.

nymesis7210 - / 1   Apr 1, 2014   #3 'Technology affect our attention' - Would this be a good thesis statement? While today's technology and social media networks can help alleviate our boredom, it is this same technology that is affecting our attention spans because it causes too much distraction

Thesis for how technology affects us

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Young children and technology

Technology has a huge effect on people's well-being. The majority of adults around the world use software applications for socialization at work and at home. Furthermore, a sizable proportion of the world's households own different machines such as smartphones and computers. This factor raises the likelihood of children engaging with electronics at a young age. Furthermore, these devices are becoming more inexpensive, reliable, and compact, making them more available to children.

Thesis statement: While technology makes life easier, it has a variety of effects on children. As a result, the debate focuses on the negative impact of technology on the youth.

Claim: Technology damages the social skills of children.

1. Evidence: They spend much time watching cartoons and playing video games on the various technological devices. Although the gadgets keep the kids busy and enable their parents to carry on with their daily engagements, they have adverse effects on the growing children (Jordan, 2014). They impair the social skills of kids making them unable to practice healthy behaviors, make friends, practice the polite language, and to take responsibility. Furthermore, the various technological applications affect the ability of children to observe verbal instructions and empathize with others. 2. Evidence: Consequently, they make kids isolate themselves affecting their capacity to master essential communication skills and language learning techniques (Flewitt, Messer, & Kucirkova, 2014). 3. Discussion: This topic relates to the thesis statement because it addresses the negative effects of technology on the social skills of children.

Claim: Technology has potential emotional harm on children.

1. Evidence: Although the applications on the various technological devices are entertaining, they result in addiction and over-stimulation resulting in emotional harm on kids (Clements & Sarama, 2003). They spend much of their time on digital gaming denying themselves other activities that help in promoting psychological development. 2. Evidence: Moreover, parents spend time chatting instead of having face-to-face discussions with their children. Such dialogues assist in identifying and solving the emotional problems of kids (Flewitt, Messer, & Kucirkova, 2014). This subtopic is related to the thesis statement in that it explains the psychological effects of technology on children.

A. Counterargument: On the other hand, technology facilitates educational programs for young children. Computers play an integral role in educating kids (Bell & Crawford, 2001). Children who access computer literacy at an early age set a good foundation for their educational careers. As such, teachers should plan and set computer facilities in an organized manner to enable students to explore their new worlds quickly. Educators should ensure that the young children are comfortable with their professional roles as they use computers. Moreover, they should possess the correct instructional and methodological technologies to improve their service delivery. Costley (2014) also argues that technology helps in improving the academic achievement among young learners. B. Rebuttal: However, teachers should remember that technology is a health issue among children (Haughton, Aiken, & Cheevers, 2015). The sub-topic relates to the thesis statement since it offers a counter argument.

Call to action: Parents and teachers should understand the adverse effects of technology on their children. Using devices is inevitable in the current world; hence, parents should aim at minimizing the influence of technology on children. This facilitates the learning process. As such, parents and teachers should adopt measures that regulate the use of technology among children to enjoy the benefits of it. They should also encourage kids to respect the family and play time, especially outdoor activities.

Concluding statement: Although technology is an integral aspect of the lives of human beings, it influences children negatively.

Useful info: Explore GrabMyEssay history essay writing help to excel in your studies.

Bell, M., & Crawford, C. (2001, January 1). Young Children and Technology: Building Computer Literacy.

Clements, D., & Sarama, J. (2003, November 1). Young Children and Technology: What does the research say? Young Children, 58(6), 34-40.

Costley, K. (2014). The Positive Effects of Technology on Teaching and Student Learning. 1-10.

Flewitt, R., Messer, D., & Kucirkova, N. (2014). New Directions for Early Literacy in a Digital Age: The iPad. Journal of Early Childhood Literacy, 1-22.

Jordan, A. (2014). Media and the Well-being of Children and Adolescents.

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