Tiêu đề TEST 2 - GK1 GLOBAL 10 - NEW 2026 ( HS ).docx ✅

B. they developed problem-solving abilities that cannot be programmed into AI systems C. having created emotional intelligence frameworks adopted by modern education systems D. they mastered communication strategies evolved from pre-digital social interactions Question 20: A. however, digital platforms replacing traditional mentorship models are rapidly expanding B. meanwhile, virtual reality games simulating historical events are becoming more popular C. therefore, new apps connecting young people with elder mentors are being developed D. surprisingly, elder communities rejecting technological solutions are growing in numbers Question 21: A. designed these algorithms had created digital barriers unintentionally B. will analyze these interactions would discover communication patterns C. whom researchers invite to evaluate virtual reality experiences share feedback D. who participate in these programs feel valued and purposeful Question 22: A. Elders share farming wisdom that young environmental activists apply to urban gardening projects B. Students create digital platforms where elders document traditional cooking techniques for preservation C. Technologists develop artificial intelligence systems which analyze ancient farming practices for efficiency D. Artists incorporate traditional ecological knowledge that elders preserve through storytelling methods Read the following passage about Electronics That Return to the Earth and mark the letter A, B, C or D on your answer sheet to indicate the best answer to each of the following questions from 23 to 30. The electronics industry faces a crisis as discarded devices create e-waste, contaminating soil and water. Traditional electronics contain harmful materials like lead and plastics that persist in landfills for centuries. Researchers are developing biodegradable components that decompose naturally. These alternatives include circuit boards from cellulose, semiconductors from proteins, and casings from mycelium. When these devices expire, they break down into non-toxic elements that enrich rather than poison the environment. Major companies are investing in biodegradable electronics, recognizing environmental benefits and consumer demand. Samsung unveiled a prototype with biodegradable casing, while Apple committed to recycled materials. However, obstacles remain before biodegradable devices become mainstream. Engineers must balance durability with decomposition—a challenging problem. Additionally, biodegradable components cost more than conventional materials. Despite these hurdles, experts predict biodegradable electronics could reach 15% market share by 2030. The environmental impact could be profound. A biodegradable smartphone saves approximately 35 kilograms of carbon dioxide compared to conventional models. If widely adopted, these electronics could reduce e-waste significantly. These technologies create opportunities for sustainable business. Some