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Directions: The passage below is followed by some questions based on its content. Answer the questions on the basis of what is stated or implied in the passage.
The Ethical Implications of Genetic Engineering
Genetic engineering, once a speculative notion confined to the realms of science fiction, has now become a tangible reality with profound implications. The ability to manipulate the genetic code of living organisms has opened a Pandora's box of ethical dilemmas that challenge our most fundamental beliefs about life, identity, and nature.
At the forefront of this scientific frontier is the revolutionary technology known as CRISPR-Cas9, which allows for precise editing of DNA. Its applications range from the noble pursuit of eradicating genetic diseases to the contentious arena of enhancing human capabilities beyond their natural limits. The potential to cure hereditary conditions and improve the quality of life is counterbalanced by the specter of 'designer babies' and the commodification of genetic traits.
The ethical quandaries extend beyond human genetics. Genetic engineering in agriculture has led to the creation of genetically modified organisms (GMOs) that promise higher yields and resistance to pests. However, the long-term ecological consequences of such modifications remain uncertain, and the monopolization of genetically altered seeds by corporations raises concerns about food sovereignty and the rights of farmers.
Moreover, the manipulation of animal genetics for human benefit, such as the production of transgenic animals for pharmaceutical purposes, poses questions about animal welfare and the integrity of species. The blurring of lines between natural and artificial life forms has profound philosophical implications, challenging our understanding of what it means to be 'natural' in the age of genetic engineering.
As we grapple with the capabilities afforded by genetic engineering, it is imperative to engage in a global dialogue that considers the ethical, social, and environmental ramifications. The decisions we make today will shape the future of our species and the planet, necessitating a careful balance between scientific innovation and ethical responsibility.
Q. What is the primary concern addressed in the passage?
  • a)
    The technical challenges of genetic engineering.
  • b)
    The ethical implications of genetic engineering.
  • c)
    The financial costs associated with genetic engineering.
  • d)
    The historical development of genetic engineering technologies.
Correct answer is option 'B'. Can you explain this answer?
Most Upvoted Answer
Directions: The passage below is followed by some questions based on i...
The passage primarily focuses on the ethical dilemmas and implications arising from the advancements in genetic engineering. While it does touch upon the capabilities and applications of genetic engineering, the central theme revolves around the ethical considerations, such as the creation of 'designer babies', the ecological consequences of GMOs, and animal welfare in the context of transgenic animals. The passage does not primarily address the technical challenges (A), financial costs (C), or historical development (D) of genetic engineering.
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Community Answer
Directions: The passage below is followed by some questions based on i...
The Primary Concern of the Passage
The passage primarily addresses the ethical implications of genetic engineering, highlighting the complexities that arise from advancements in this field.

Focus on Ethical Dilemmas
- The text emphasizes the "Pandora's box of ethical dilemmas" opened by genetic engineering.
- It discusses fundamental beliefs about life, identity, and nature that are challenged by genetic manipulation.

Technological Advancements
- The passage mentions CRISPR-Cas9 as a revolutionary technology enabling precise DNA editing.
- While it acknowledges potential benefits, such as curing genetic diseases, it also raises concerns about "designer babies" and the commodification of genetic traits.

Broader Implications
- Ethical concerns are not limited to human genetics but extend to agriculture and animal welfare.
- The creation of GMOs raises questions about ecological consequences and corporate control over food resources.
- The manipulation of animal genetics for pharmaceutical purposes prompts discussions about animal welfare and species integrity.

Call for Global Dialogue
- The passage concludes by emphasizing the need for a global dialogue on the ethical, social, and environmental ramifications of genetic engineering.
- It suggests that the decisions made today will significantly impact the future of humanity and the planet.
In summary, the passage's primary concern is the ethical implications of genetic engineering, underscoring the need for careful consideration as we navigate this complex and transformative field.
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Directions: The passage below is followed by some questions based on its content. Answer the questions on the basis of what is stated or implied in the passage.The Ethical Implications of Genetic EngineeringGenetic engineering, once a speculative notion confined to the realms of science fiction, has now become a tangible reality with profound implications. The ability to manipulate the genetic code of living organisms has opened a Pandoras box of ethical dilemmas that challenge our most fundamental beliefs about life, identity, and nature.At the forefront of this scientific frontier is the revolutionary technology known as CRISPR-Cas9, which allows for precise editing of DNA. Its applications range from the noble pursuit of eradicating genetic diseases to the contentious arena of enhancing human capabilities beyond their natural limits. The potential to cure hereditary conditions and improve the quality of life is counterbalanced by the specter of designer babies and the commodification of genetic traits.The ethical quandaries extend beyond human genetics. Genetic engineering in agriculture has led to the creation of genetically modified organisms (GMOs) that promise higher yields and resistance to pests. However, the long-term ecological consequences of such modifications remain uncertain, and the monopolization of genetically altered seeds by corporations raises concerns about food sovereignty and the rights of farmers.Moreover, the manipulation of animal genetics for human benefit, such as the production of transgenic animals for pharmaceutical purposes, poses questions about animal welfare and the integrity of species. The blurring of lines between natural and artificial life forms has profound philosophical implications, challenging our understanding of what it means to be natural in the age of genetic engineering.As we grapple with the capabilities afforded by genetic engineering, it is imperative to engage in a global dialogue that considers the ethical, social, and environmental ramifications. The decisions we make today will shape the future of our species and the planet, necessitating a careful balance between scientific innovation and ethical responsibility.Q.Which of the following is NOT mentioned as a concern related to genetic engineering in agriculture?

Directions: The passage below is followed by some questions based on its content. Answer the questions on the basis of what is stated or implied in the passage.The Ethical Implications of Genetic EngineeringGenetic engineering, once a speculative notion confined to the realms of science fiction, has now become a tangible reality with profound implications. The ability to manipulate the genetic code of living organisms has opened a Pandoras box of ethical dilemmas that challenge our most fundamental beliefs about life, identity, and nature.At the forefront of this scientific frontier is the revolutionary technology known as CRISPR-Cas9, which allows for precise editing of DNA. Its applications range from the noble pursuit of eradicating genetic diseases to the contentious arena of enhancing human capabilities beyond their natural limits. The potential to cure hereditary conditions and improve the quality of life is counterbalanced by the specter of designer babies and the commodification of genetic traits.The ethical quandaries extend beyond human genetics. Genetic engineering in agriculture has led to the creation of genetically modified organisms (GMOs) that promise higher yields and resistance to pests. However, the long-term ecological consequences of such modifications remain uncertain, and the monopolization of genetically altered seeds by corporations raises concerns about food sovereignty and the rights of farmers.Moreover, the manipulation of animal genetics for human benefit, such as the production of transgenic animals for pharmaceutical purposes, poses questions about animal welfare and the integrity of species. The blurring of lines between natural and artificial life forms has profound philosophical implications, challenging our understanding of what it means to be natural in the age of genetic engineering.As we grapple with the capabilities afforded by genetic engineering, it is imperative to engage in a global dialogue that considers the ethical, social, and environmental ramifications. The decisions we make today will shape the future of our species and the planet, necessitating a careful balance between scientific innovation and ethical responsibility.Q.The authors stance on the topic of genetic engineering can best be described as

Directions: The passage below is followed by some questions based on its content. Answer the questions on the basis of what is stated or implied in the passage.The Ethical Implications of Genetic EngineeringGenetic engineering, once a speculative notion confined to the realms of science fiction, has now become a tangible reality with profound implications. The ability to manipulate the genetic code of living organisms has opened a Pandoras box of ethical dilemmas that challenge our most fundamental beliefs about life, identity, and nature.At the forefront of this scientific frontier is the revolutionary technology known as CRISPR-Cas9, which allows for precise editing of DNA. Its applications range from the noble pursuit of eradicating genetic diseases to the contentious arena of enhancing human capabilities beyond their natural limits. The potential to cure hereditary conditions and improve the quality of life is counterbalanced by the specter of designer babies and the commodification of genetic traits.The ethical quandaries extend beyond human genetics. Genetic engineering in agriculture has led to the creation of genetically modified organisms (GMOs) that promise higher yields and resistance to pests. However, the long-term ecological consequences of such modifications remain uncertain, and the monopolization of genetically altered seeds by corporations raises concerns about food sovereignty and the rights of farmers.Moreover, the manipulation of animal genetics for human benefit, such as the production of transgenic animals for pharmaceutical purposes, poses questions about animal welfare and the integrity of species. The blurring of lines between natural and artificial life forms has profound philosophical implications, challenging our understanding of what it means to be natural in the age of genetic engineering.As we grapple with the capabilities afforded by genetic engineering, it is imperative to engage in a global dialogue that considers the ethical, social, and environmental ramifications. The decisions we make today will shape the future of our species and the planet, necessitating a careful balance between scientific innovation and ethical responsibility.Q.According to the passage, what does CRISPR-Cas9 technology allow for?

Directions: The passage below is followed by a question based on its content. Answer the question on the basis of what is stated or implied in the passage.It is estimated that 90 to 95 percent of AIDS infections occur in developing countries, primarily in sub-Saharan Africa where some of the worlds worst living conditions exist. According to current estimates, 70 percent of those infected with AIDS live in this region. Today, AIDS is called pandemic because it has spread to every inhabited continent in the world. Currently, the areas most affected by AIDS are Africa, India, and China.In response to the magnitude of the AIDS crisis, countries throughout the world have developed National AIDS Programs (NAPs) adapted to the specific needs of their populations. The World Health Organization (WHO), a United Nations agency, founded a global HIV/AIDS trust fund in 1987 to help fund the NAP programs. These programs focus on the prevention of the sexual transmission of HIV and the transmission of HIV through blood and blood products, including injection drug use. The NAP programs have also supported strong international efforts to de-stigmatize AIDS and to ensure the human rights of those with HIV/AIDS. In addition, the programs attempt to reduce mother-to-child transmissions, which are a much greater issue in less affluent countries.These national programs sometimes include working in partnerships with nongovernmental organizations (NGOs). NGOs, at the national level, provide a broad range of services, from confidential counseling and testing to support and legal services for people with AIDS. Some NGOs focus on solidarity, bringing people with AIDS together to fight the disease. The organizations work to establish AIDS self-help groups. NGOs such as Doctors Without Borders, Oxfam, and The AIDS Coalition to Unleash Power have pressed drug companies to reduce their prices to poor countries. These activists are working to get generic versions of AIDS drugs at drastically reduced prices to countries in need.One of the few success stories in the fight against AIDS is Thailand, where the use of condoms is mandatory in brothels, which are closed down if they do not comply with government regulations. Thailand, along with Uganda, has experienced a drop in HIV infection rates and is a prime example of how prevention practices can work. Uganda was the first country to report its AIDS cases. In the 1980s this country had the world’s highest HIV infection rates, but the government responded quickly. After prevention through education and the promotion of safe-sex practices such as the use of condoms, Uganda has also experienced a decline in HIV rates.Although some prevention efforts have succeeded, many analysts believe that the ultimate solution to the global AIDS crisis is the development of a vaccine that will prevent people from contracting AIDS in the first place. Many researchers believe that the development of a preventive vaccine is possible and absolutely necessary in order to eradicate AIDS. However, many pharmaceutical companies do not want to invest in AIDS vaccine research because of the large expense involved and the belief that profits could not be made on the vaccines. Funding for research to develop an AIDS vaccine comes from several sources, mainly the International AIDS Vaccine Initiative (IAVI), UNAIDS, the U.S. National Institutes of Health (NIH), U.S. government agencies, and a few multinational pharmaceutical companies.In the meantime, AIDS continues to spread in the developing world. Although successes have occurred, many experts contend that much more needs to be done. They argue that the response to AIDS needs to be of greater duration, greater quality, and greater scope to reach the many areas of life which AIDS touches and affects.Q.The most probable reason for the hesitation of pharmaceutical companies on the whole in making AIDS vaccine can be _______.

Directions: Read the passage and answer the following question.The philosophy of Existentialism, which blossomed in the 19th and 20th centuries, places a strong emphasis on individual freedom and the importance of personal choices. Prominent existentialists like Søren Kierkegaard, Friedrich Nietzsche, Jean-Paul Sartre, and Albert Camus argued that life inherently lacks meaning, and it is up to each individual to create their own sense of purpose and value. Existentialists believe that individuals are free to make their own choices, but with this freedom comes immense responsibility. This responsibility can often lead to feelings of angst and despair, as individuals realize the weight of their freedom and the consequences of their choices. Kierkegaard, often regarded as the father of Existentialism, introduced the concept of the "leap of faith," suggesting that one must make a personal and subjective commitment to a belief or course of action without relying on objective certainty. Jean-Paul Sartre famously declared, "Existence precedes essence," implying that individuals first exist and then define themselves through their actions and decisions. For Sartre, freedom is the very essence of human existence, and we are condemned to be free, even in situations that appear to limit our freedom. Albert Camus, on the other hand, introduced the notion of the Absurd, the conflict between the human tendency to seek inherent value and meaning in life and the inability to find any in a purposeless, meaningless or chaotic and irrational universe. His response to the Absurd was to embrace it and live life to the fullest, a concept known as "absurd heroism." Existentialism, while not a uniform doctrine, offers a view of human existence that emphasizes individual freedom, choice, and responsibility. It encourages individuals to create their own meaning in an indifferent or even hostile universe.Q. Which of the following is not a central theme of Existentialism as depicted in the passage?

Directions: The passage below is followed by some questions based on its content. Answer the questions on the basis of what is stated or implied in the passage.The Ethical Implications of Genetic EngineeringGenetic engineering, once a speculative notion confined to the realms of science fiction, has now become a tangible reality with profound implications. The ability to manipulate the genetic code of living organisms has opened a Pandoras box of ethical dilemmas that challenge our most fundamental beliefs about life, identity, and nature.At the forefront of this scientific frontier is the revolutionary technology known as CRISPR-Cas9, which allows for precise editing of DNA. Its applications range from the noble pursuit of eradicating genetic diseases to the contentious arena of enhancing human capabilities beyond their natural limits. The potential to cure hereditary conditions and improve the quality of life is counterbalanced by the specter of designer babies and the commodification of genetic traits.The ethical quandaries extend beyond human genetics. Genetic engineering in agriculture has led to the creation of genetically modified organisms (GMOs) that promise higher yields and resistance to pests. However, the long-term ecological consequences of such modifications remain uncertain, and the monopolization of genetically altered seeds by corporations raises concerns about food sovereignty and the rights of farmers.Moreover, the manipulation of animal genetics for human benefit, such as the production of transgenic animals for pharmaceutical purposes, poses questions about animal welfare and the integrity of species. The blurring of lines between natural and artificial life forms has profound philosophical implications, challenging our understanding of what it means to be natural in the age of genetic engineering.As we grapple with the capabilities afforded by genetic engineering, it is imperative to engage in a global dialogue that considers the ethical, social, and environmental ramifications. The decisions we make today will shape the future of our species and the planet, necessitating a careful balance between scientific innovation and ethical responsibility.Q.What is the primary concern addressed in the passage?a)The technical challenges of genetic engineering.b)The ethical implications of genetic engineering.c)The financial costs associated with genetic engineering.d)The historical development of genetic engineering technologies.Correct answer is option 'B'. Can you explain this answer?
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Directions: The passage below is followed by some questions based on its content. Answer the questions on the basis of what is stated or implied in the passage.The Ethical Implications of Genetic EngineeringGenetic engineering, once a speculative notion confined to the realms of science fiction, has now become a tangible reality with profound implications. The ability to manipulate the genetic code of living organisms has opened a Pandoras box of ethical dilemmas that challenge our most fundamental beliefs about life, identity, and nature.At the forefront of this scientific frontier is the revolutionary technology known as CRISPR-Cas9, which allows for precise editing of DNA. Its applications range from the noble pursuit of eradicating genetic diseases to the contentious arena of enhancing human capabilities beyond their natural limits. The potential to cure hereditary conditions and improve the quality of life is counterbalanced by the specter of designer babies and the commodification of genetic traits.The ethical quandaries extend beyond human genetics. Genetic engineering in agriculture has led to the creation of genetically modified organisms (GMOs) that promise higher yields and resistance to pests. However, the long-term ecological consequences of such modifications remain uncertain, and the monopolization of genetically altered seeds by corporations raises concerns about food sovereignty and the rights of farmers.Moreover, the manipulation of animal genetics for human benefit, such as the production of transgenic animals for pharmaceutical purposes, poses questions about animal welfare and the integrity of species. The blurring of lines between natural and artificial life forms has profound philosophical implications, challenging our understanding of what it means to be natural in the age of genetic engineering.As we grapple with the capabilities afforded by genetic engineering, it is imperative to engage in a global dialogue that considers the ethical, social, and environmental ramifications. The decisions we make today will shape the future of our species and the planet, necessitating a careful balance between scientific innovation and ethical responsibility.Q.What is the primary concern addressed in the passage?a)The technical challenges of genetic engineering.b)The ethical implications of genetic engineering.c)The financial costs associated with genetic engineering.d)The historical development of genetic engineering technologies.Correct answer is option 'B'. Can you explain this answer? for CAT 2024 is part of CAT preparation. The Question and answers have been prepared according to the CAT exam syllabus. Information about Directions: The passage below is followed by some questions based on its content. Answer the questions on the basis of what is stated or implied in the passage.The Ethical Implications of Genetic EngineeringGenetic engineering, once a speculative notion confined to the realms of science fiction, has now become a tangible reality with profound implications. The ability to manipulate the genetic code of living organisms has opened a Pandoras box of ethical dilemmas that challenge our most fundamental beliefs about life, identity, and nature.At the forefront of this scientific frontier is the revolutionary technology known as CRISPR-Cas9, which allows for precise editing of DNA. Its applications range from the noble pursuit of eradicating genetic diseases to the contentious arena of enhancing human capabilities beyond their natural limits. The potential to cure hereditary conditions and improve the quality of life is counterbalanced by the specter of designer babies and the commodification of genetic traits.The ethical quandaries extend beyond human genetics. Genetic engineering in agriculture has led to the creation of genetically modified organisms (GMOs) that promise higher yields and resistance to pests. However, the long-term ecological consequences of such modifications remain uncertain, and the monopolization of genetically altered seeds by corporations raises concerns about food sovereignty and the rights of farmers.Moreover, the manipulation of animal genetics for human benefit, such as the production of transgenic animals for pharmaceutical purposes, poses questions about animal welfare and the integrity of species. The blurring of lines between natural and artificial life forms has profound philosophical implications, challenging our understanding of what it means to be natural in the age of genetic engineering.As we grapple with the capabilities afforded by genetic engineering, it is imperative to engage in a global dialogue that considers the ethical, social, and environmental ramifications. The decisions we make today will shape the future of our species and the planet, necessitating a careful balance between scientific innovation and ethical responsibility.Q.What is the primary concern addressed in the passage?a)The technical challenges of genetic engineering.b)The ethical implications of genetic engineering.c)The financial costs associated with genetic engineering.d)The historical development of genetic engineering technologies.Correct answer is option 'B'. Can you explain this answer? covers all topics & solutions for CAT 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Directions: The passage below is followed by some questions based on its content. Answer the questions on the basis of what is stated or implied in the passage.The Ethical Implications of Genetic EngineeringGenetic engineering, once a speculative notion confined to the realms of science fiction, has now become a tangible reality with profound implications. The ability to manipulate the genetic code of living organisms has opened a Pandoras box of ethical dilemmas that challenge our most fundamental beliefs about life, identity, and nature.At the forefront of this scientific frontier is the revolutionary technology known as CRISPR-Cas9, which allows for precise editing of DNA. Its applications range from the noble pursuit of eradicating genetic diseases to the contentious arena of enhancing human capabilities beyond their natural limits. The potential to cure hereditary conditions and improve the quality of life is counterbalanced by the specter of designer babies and the commodification of genetic traits.The ethical quandaries extend beyond human genetics. Genetic engineering in agriculture has led to the creation of genetically modified organisms (GMOs) that promise higher yields and resistance to pests. However, the long-term ecological consequences of such modifications remain uncertain, and the monopolization of genetically altered seeds by corporations raises concerns about food sovereignty and the rights of farmers.Moreover, the manipulation of animal genetics for human benefit, such as the production of transgenic animals for pharmaceutical purposes, poses questions about animal welfare and the integrity of species. The blurring of lines between natural and artificial life forms has profound philosophical implications, challenging our understanding of what it means to be natural in the age of genetic engineering.As we grapple with the capabilities afforded by genetic engineering, it is imperative to engage in a global dialogue that considers the ethical, social, and environmental ramifications. The decisions we make today will shape the future of our species and the planet, necessitating a careful balance between scientific innovation and ethical responsibility.Q.What is the primary concern addressed in the passage?a)The technical challenges of genetic engineering.b)The ethical implications of genetic engineering.c)The financial costs associated with genetic engineering.d)The historical development of genetic engineering technologies.Correct answer is option 'B'. Can you explain this answer?.
Solutions for Directions: The passage below is followed by some questions based on its content. Answer the questions on the basis of what is stated or implied in the passage.The Ethical Implications of Genetic EngineeringGenetic engineering, once a speculative notion confined to the realms of science fiction, has now become a tangible reality with profound implications. The ability to manipulate the genetic code of living organisms has opened a Pandoras box of ethical dilemmas that challenge our most fundamental beliefs about life, identity, and nature.At the forefront of this scientific frontier is the revolutionary technology known as CRISPR-Cas9, which allows for precise editing of DNA. Its applications range from the noble pursuit of eradicating genetic diseases to the contentious arena of enhancing human capabilities beyond their natural limits. The potential to cure hereditary conditions and improve the quality of life is counterbalanced by the specter of designer babies and the commodification of genetic traits.The ethical quandaries extend beyond human genetics. Genetic engineering in agriculture has led to the creation of genetically modified organisms (GMOs) that promise higher yields and resistance to pests. However, the long-term ecological consequences of such modifications remain uncertain, and the monopolization of genetically altered seeds by corporations raises concerns about food sovereignty and the rights of farmers.Moreover, the manipulation of animal genetics for human benefit, such as the production of transgenic animals for pharmaceutical purposes, poses questions about animal welfare and the integrity of species. The blurring of lines between natural and artificial life forms has profound philosophical implications, challenging our understanding of what it means to be natural in the age of genetic engineering.As we grapple with the capabilities afforded by genetic engineering, it is imperative to engage in a global dialogue that considers the ethical, social, and environmental ramifications. The decisions we make today will shape the future of our species and the planet, necessitating a careful balance between scientific innovation and ethical responsibility.Q.What is the primary concern addressed in the passage?a)The technical challenges of genetic engineering.b)The ethical implications of genetic engineering.c)The financial costs associated with genetic engineering.d)The historical development of genetic engineering technologies.Correct answer is option 'B'. Can you explain this answer? in English & in Hindi are available as part of our courses for CAT. Download more important topics, notes, lectures and mock test series for CAT Exam by signing up for free.
Here you can find the meaning of Directions: The passage below is followed by some questions based on its content. Answer the questions on the basis of what is stated or implied in the passage.The Ethical Implications of Genetic EngineeringGenetic engineering, once a speculative notion confined to the realms of science fiction, has now become a tangible reality with profound implications. The ability to manipulate the genetic code of living organisms has opened a Pandoras box of ethical dilemmas that challenge our most fundamental beliefs about life, identity, and nature.At the forefront of this scientific frontier is the revolutionary technology known as CRISPR-Cas9, which allows for precise editing of DNA. Its applications range from the noble pursuit of eradicating genetic diseases to the contentious arena of enhancing human capabilities beyond their natural limits. The potential to cure hereditary conditions and improve the quality of life is counterbalanced by the specter of designer babies and the commodification of genetic traits.The ethical quandaries extend beyond human genetics. Genetic engineering in agriculture has led to the creation of genetically modified organisms (GMOs) that promise higher yields and resistance to pests. However, the long-term ecological consequences of such modifications remain uncertain, and the monopolization of genetically altered seeds by corporations raises concerns about food sovereignty and the rights of farmers.Moreover, the manipulation of animal genetics for human benefit, such as the production of transgenic animals for pharmaceutical purposes, poses questions about animal welfare and the integrity of species. The blurring of lines between natural and artificial life forms has profound philosophical implications, challenging our understanding of what it means to be natural in the age of genetic engineering.As we grapple with the capabilities afforded by genetic engineering, it is imperative to engage in a global dialogue that considers the ethical, social, and environmental ramifications. The decisions we make today will shape the future of our species and the planet, necessitating a careful balance between scientific innovation and ethical responsibility.Q.What is the primary concern addressed in the passage?a)The technical challenges of genetic engineering.b)The ethical implications of genetic engineering.c)The financial costs associated with genetic engineering.d)The historical development of genetic engineering technologies.Correct answer is option 'B'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of Directions: The passage below is followed by some questions based on its content. Answer the questions on the basis of what is stated or implied in the passage.The Ethical Implications of Genetic EngineeringGenetic engineering, once a speculative notion confined to the realms of science fiction, has now become a tangible reality with profound implications. The ability to manipulate the genetic code of living organisms has opened a Pandoras box of ethical dilemmas that challenge our most fundamental beliefs about life, identity, and nature.At the forefront of this scientific frontier is the revolutionary technology known as CRISPR-Cas9, which allows for precise editing of DNA. Its applications range from the noble pursuit of eradicating genetic diseases to the contentious arena of enhancing human capabilities beyond their natural limits. The potential to cure hereditary conditions and improve the quality of life is counterbalanced by the specter of designer babies and the commodification of genetic traits.The ethical quandaries extend beyond human genetics. Genetic engineering in agriculture has led to the creation of genetically modified organisms (GMOs) that promise higher yields and resistance to pests. However, the long-term ecological consequences of such modifications remain uncertain, and the monopolization of genetically altered seeds by corporations raises concerns about food sovereignty and the rights of farmers.Moreover, the manipulation of animal genetics for human benefit, such as the production of transgenic animals for pharmaceutical purposes, poses questions about animal welfare and the integrity of species. The blurring of lines between natural and artificial life forms has profound philosophical implications, challenging our understanding of what it means to be natural in the age of genetic engineering.As we grapple with the capabilities afforded by genetic engineering, it is imperative to engage in a global dialogue that considers the ethical, social, and environmental ramifications. The decisions we make today will shape the future of our species and the planet, necessitating a careful balance between scientific innovation and ethical responsibility.Q.What is the primary concern addressed in the passage?a)The technical challenges of genetic engineering.b)The ethical implications of genetic engineering.c)The financial costs associated with genetic engineering.d)The historical development of genetic engineering technologies.Correct answer is option 'B'. Can you explain this answer?, a detailed solution for Directions: The passage below is followed by some questions based on its content. Answer the questions on the basis of what is stated or implied in the passage.The Ethical Implications of Genetic EngineeringGenetic engineering, once a speculative notion confined to the realms of science fiction, has now become a tangible reality with profound implications. The ability to manipulate the genetic code of living organisms has opened a Pandoras box of ethical dilemmas that challenge our most fundamental beliefs about life, identity, and nature.At the forefront of this scientific frontier is the revolutionary technology known as CRISPR-Cas9, which allows for precise editing of DNA. Its applications range from the noble pursuit of eradicating genetic diseases to the contentious arena of enhancing human capabilities beyond their natural limits. The potential to cure hereditary conditions and improve the quality of life is counterbalanced by the specter of designer babies and the commodification of genetic traits.The ethical quandaries extend beyond human genetics. Genetic engineering in agriculture has led to the creation of genetically modified organisms (GMOs) that promise higher yields and resistance to pests. However, the long-term ecological consequences of such modifications remain uncertain, and the monopolization of genetically altered seeds by corporations raises concerns about food sovereignty and the rights of farmers.Moreover, the manipulation of animal genetics for human benefit, such as the production of transgenic animals for pharmaceutical purposes, poses questions about animal welfare and the integrity of species. The blurring of lines between natural and artificial life forms has profound philosophical implications, challenging our understanding of what it means to be natural in the age of genetic engineering.As we grapple with the capabilities afforded by genetic engineering, it is imperative to engage in a global dialogue that considers the ethical, social, and environmental ramifications. The decisions we make today will shape the future of our species and the planet, necessitating a careful balance between scientific innovation and ethical responsibility.Q.What is the primary concern addressed in the passage?a)The technical challenges of genetic engineering.b)The ethical implications of genetic engineering.c)The financial costs associated with genetic engineering.d)The historical development of genetic engineering technologies.Correct answer is option 'B'. Can you explain this answer? has been provided alongside types of Directions: The passage below is followed by some questions based on its content. Answer the questions on the basis of what is stated or implied in the passage.The Ethical Implications of Genetic EngineeringGenetic engineering, once a speculative notion confined to the realms of science fiction, has now become a tangible reality with profound implications. The ability to manipulate the genetic code of living organisms has opened a Pandoras box of ethical dilemmas that challenge our most fundamental beliefs about life, identity, and nature.At the forefront of this scientific frontier is the revolutionary technology known as CRISPR-Cas9, which allows for precise editing of DNA. Its applications range from the noble pursuit of eradicating genetic diseases to the contentious arena of enhancing human capabilities beyond their natural limits. The potential to cure hereditary conditions and improve the quality of life is counterbalanced by the specter of designer babies and the commodification of genetic traits.The ethical quandaries extend beyond human genetics. Genetic engineering in agriculture has led to the creation of genetically modified organisms (GMOs) that promise higher yields and resistance to pests. However, the long-term ecological consequences of such modifications remain uncertain, and the monopolization of genetically altered seeds by corporations raises concerns about food sovereignty and the rights of farmers.Moreover, the manipulation of animal genetics for human benefit, such as the production of transgenic animals for pharmaceutical purposes, poses questions about animal welfare and the integrity of species. The blurring of lines between natural and artificial life forms has profound philosophical implications, challenging our understanding of what it means to be natural in the age of genetic engineering.As we grapple with the capabilities afforded by genetic engineering, it is imperative to engage in a global dialogue that considers the ethical, social, and environmental ramifications. The decisions we make today will shape the future of our species and the planet, necessitating a careful balance between scientific innovation and ethical responsibility.Q.What is the primary concern addressed in the passage?a)The technical challenges of genetic engineering.b)The ethical implications of genetic engineering.c)The financial costs associated with genetic engineering.d)The historical development of genetic engineering technologies.Correct answer is option 'B'. Can you explain this answer? theory, EduRev gives you an ample number of questions to practice Directions: The passage below is followed by some questions based on its content. Answer the questions on the basis of what is stated or implied in the passage.The Ethical Implications of Genetic EngineeringGenetic engineering, once a speculative notion confined to the realms of science fiction, has now become a tangible reality with profound implications. The ability to manipulate the genetic code of living organisms has opened a Pandoras box of ethical dilemmas that challenge our most fundamental beliefs about life, identity, and nature.At the forefront of this scientific frontier is the revolutionary technology known as CRISPR-Cas9, which allows for precise editing of DNA. Its applications range from the noble pursuit of eradicating genetic diseases to the contentious arena of enhancing human capabilities beyond their natural limits. The potential to cure hereditary conditions and improve the quality of life is counterbalanced by the specter of designer babies and the commodification of genetic traits.The ethical quandaries extend beyond human genetics. Genetic engineering in agriculture has led to the creation of genetically modified organisms (GMOs) that promise higher yields and resistance to pests. However, the long-term ecological consequences of such modifications remain uncertain, and the monopolization of genetically altered seeds by corporations raises concerns about food sovereignty and the rights of farmers.Moreover, the manipulation of animal genetics for human benefit, such as the production of transgenic animals for pharmaceutical purposes, poses questions about animal welfare and the integrity of species. The blurring of lines between natural and artificial life forms has profound philosophical implications, challenging our understanding of what it means to be natural in the age of genetic engineering.As we grapple with the capabilities afforded by genetic engineering, it is imperative to engage in a global dialogue that considers the ethical, social, and environmental ramifications. The decisions we make today will shape the future of our species and the planet, necessitating a careful balance between scientific innovation and ethical responsibility.Q.What is the primary concern addressed in the passage?a)The technical challenges of genetic engineering.b)The ethical implications of genetic engineering.c)The financial costs associated with genetic engineering.d)The historical development of genetic engineering technologies.Correct answer is option 'B'. Can you explain this answer? tests, examples and also practice CAT tests.
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