LENG101 FRESHMAN ENGLISH – Extensive supporting material
UNIT 1 - Technology in use
Vocabulary pp 8-9 – Explaining how technology works
The definitions and sample sentences:
1.Decade
Definition (EN): In engineering, a decade typically refers to a period of ten years. Engineers often use this term to discuss developments, progress, or advancements over a specific ten-year timeframe.
Definition (TR): Mühendislikte, on yıl genellikle on yıllık bir dönemi ifade eder. Mühendisler bu terimi, belirli bir on yıllık zaman diliminde gelişmeleri, ilerlemeleri veya yenilikleri tartışmak için kullanır.
Sample Sentence (EN): The last decade has seen significant advancements in renewable energy technologies.
Sample Sentence (TR): Son on yılda yenilenebilir enerji teknolojilerinde önemli ilerlemeler kaydedildi.
2.Takeoff (noun)
Definition (EN): In aerospace engineering, takeoff is the phase of a flight during which an aircraft or spacecraft becomes airborne and lifts off from the ground or a launch platform.
Definition (TR): Havacılık mühendisliğinde, kalkış, bir uçağın veya uzay aracının havalanarak yerden veya bir fırlatma platformundan kalktığı aşamadır.
Sample Sentence (EN): The rocket's takeoff was successful, and it reached orbit in just a few minutes.
Sample Sentence (TR): Roketin kalkışı başarılı oldu ve sadece birkaç dakika içinde yörüngeye ulaştı.
3.Take off (verb)
Definition (EN): To "take off" in engineering means the action of an aircraft or spacecraft becoming airborne and departing from the ground or a launch platform.
Definition (TR): Mühendislikte "kalkmak", bir uçağın veya uzay aracının yerden havalanıp ayrılma eylemini ifade eder.
Sample Sentence (EN): The airplane will take off once the weather clears.
Sample Sentence (TR): Hava düzeldiğinde uçak kalkacak.
4.Component
Definition (EN): In engineering, a component is a part or element of a larger system or machine. Components are designed to perform specific functions within a system and are often manufactured separately for assembly.
Definition (TR): Mühendislikte, bir bileşen, daha büyük bir sistemin veya makinenin bir parçasıdır. Bileşenler, sistem içinde belirli işlevler yerine getirecek şekilde tasarlanır ve genellikle montaj için ayrı olarak üretilir.
Sample Sentence (EN): The motor is a critical component of the machine.
Sample Sentence (TR): Motor, makinenin kritik bir bileşenidir.
5.Payload
Definition (EN): Payload refers to the cargo or equipment that a vehicle, such as a rocket or spacecraft, is designed to carry. It can include scientific instruments, satellites, or any other items that serve a purpose during a mission.
Definition (TR): Faydalı yük, bir araç, örneğin bir roket veya uzay aracının taşımak üzere tasarlandığı kargo veya ekipmanı ifade eder. Bu, bilimsel enstrümanlar, uydular veya bir göreve hizmet eden diğer nesneleri içerebilir.
Sample Sentence (EN): The spacecraft successfully delivered its payload to the International Space Station.
Sample Sentence (TR): Uzay aracı, faydalı yükünü Uluslararası Uzay İstasyonu'na başarıyla teslim etti.
6.Altitude
Definition (EN): Altitude is the vertical distance above a reference point, usually measured in units such as feet or meters. In aerospace engineering, altitude is a crucial parameter for determining a vehicle's position in the atmosphere or in space.
Definition (TR): İrtifa, genellikle ayak veya metre gibi birimlerle ölçülen, bir referans noktasının üzerindeki dikey mesafedir. Havacılık mühendisliğinde, irtifa bir aracın atmosferdeki veya uzaydaki konumunu belirlemek için önemli bir parametredir.
Sample Sentence (EN): The plane is flying at an altitude of 35,000 feet.
Sample Sentence (TR): Uçak 35.000 fit irtifada uçuyor.
7.Colossal
Definition (EN): Colossal, in an engineering context, describes something extremely large or massive. It can refer to large structures, machinery, or objects that are of significant size and scale.
Definition (TR): Mühendislik bağlamında devasa, aşırı derecede büyük veya ağır bir şeyi tanımlar. Bu terim büyük yapılar, makineler veya önemli boyutlara sahip nesneler için kullanılabilir.
Sample Sentence (EN): The colossal bridge spans the river, connecting two major cities.
Sample Sentence (TR): Devasa köprü, nehri geçerek iki büyük şehri birbirine bağlar.
8.Geostationary
Definition (EN): Geostationary in engineering refers to an orbit in which a satellite or spacecraft remains fixed relative to a specific point on the Earth's surface. It is typically used for communication satellites, allowing them to maintain a constant position relative to the planet.
Definition (TR): Mühendislikte jeostatik, bir uydu veya uzay aracının Dünya yüzeyindeki belirli bir noktaya göre sabit kaldığı bir yörüngeyi ifade eder. Genellikle iletişim uyduları için kullanılır, böylece uydu gezegene göre sabit bir pozisyonda kalır.
Sample Sentence (EN): The geostationary satellite provides uninterrupted communication for the region.
Sample Sentence (TR): Jeostatik uydu, bölge için kesintisiz iletişim sağlar.
9.Phenomenal
Definition (EN): Phenomenal in engineering signifies something exceptional, outstanding, or remarkable in terms of its performance, capabilities, or impact. It is often used to describe groundbreaking advancements or achievements.
Definition (TR): Mühendislikte olağanüstü, performans, yetenekler veya etkisi bakımından istisnai, mükemmel veya dikkat çekici bir şeyi ifade eder. Genellikle çığır açan gelişmeleri veya başarıları tanımlamak için kullanılır.
Sample Sentence (EN): The new engine's efficiency is phenomenal, reducing fuel consumption by 30%.
Sample Sentence (TR): Yeni motorun verimliliği olağanüstü, yakıt tüketimini %30 oranında azaltıyor.
10.Unmanned
•Definition (EN): Unmanned in engineering refers to vehicles or systems that operate without the need for a human operator on board. Unmanned systems are commonly used in various applications, including drones, robotic spacecraft, and autonomous vehicles.
•Definition (TR): Mühendislikte insansız, araçların veya sistemlerin içinde bir insan operatöre ihtiyaç duymadan çalışmasını ifade eder. İnsansız sistemler genellikle dronlar, robotik uzay araçları ve otonom araçlar gibi çeşitli uygulamalarda kullanılır.
•Sample Sentence (EN): The unmanned drone completed its mission successfully.
•Sample Sentence (TR): İnsansız drone görevini başarıyla tamamladı.
11.Debris
Definition (EN): Debris in engineering refers to fragments or remnants of materials, equipment, or structures that are no longer in use or have been damaged. In aerospace engineering, space debris includes defunct satellites and discarded rocket stages that orbit the Earth and pose collision risks.
Definition (TR): Mühendislikte enkaz, artık kullanılmayan veya hasar görmüş malzeme, ekipman veya yapıların parçalarını ifade eder. Havacılık mühendisliğinde, uzay enkazı işlevsiz uydular ve Dünya yörüngesinde dönen atık roket parçalarını içerir ve çarpışma riski taşır.
Sample Sentence (EN): Space agencies are working on solutions to remove debris from Earth's orbit.
Sample Sentence (TR): Uzay ajansları, Dünya yörüngesindeki enkazı temizlemek için çözümler üzerinde çalışıyor.
12.Offshore
Definition (EN): Offshore in engineering typically refers to activities or structures located in or on the sea, ocean, or other bodies of water. It can include offshore oil platforms, wind farms, and other marine-based installations.
Definition (TR): Mühendislikte offshore, genellikle deniz, okyanus veya diğer su kütlelerinde yer alan faaliyetleri veya yapıları ifade eder. Bu, deniz petrol platformları, rüzgar çiftlikleri ve diğer deniz tabanlı kurulumları içerebilir.
Sample Sentence (EN): The offshore wind farm generates enough energy to power thousands of homes.
Sample Sentence (TR): Açık deniz rüzgar çiftliği, binlerce evi güçlendirecek kadar enerji üretiyor.
13.Anchoring
Definition (EN): Anchoring in engineering involves the process of securing a structure or object to a stable foundation or surface. It is essential for the stability and safety of various types of equipment and constructions, such as offshore platforms.
Definition (TR): Mühendislikte demirleme, bir yapıyı veya nesneyi sabit bir temele veya yüzeye güvenli bir şekilde sabitleme sürecini ifade eder. Bu, açık deniz platformları gibi çeşitli ekipman ve yapıların stabilitesi ve güvenliği için önemlidir.
Sample Sentence (EN): Proper anchoring is crucial for the stability of offshore oil platforms.
Sample Sentence (TR): Açık deniz petrol platformlarının stabilitesi için uygun demirleme çok önemlidir.
14.Propulsion
Definition (EN): Propulsion is the act of generating thrust or propulsion force to move an object through a medium, such as air or space. In engineering, propulsion systems are crucial for the motion of aircraft, spacecraft, ships, and vehicles.
Definition (TR): İtki, bir nesneyi hava veya uzay gibi bir ortamda hareket ettirmek için itme kuvveti veya itici kuvvet oluşturma eylemidir. Mühendislikte, itki sistemleri uçakların, uzay araçlarının, gemilerin ve araçların hareketi için çok önemlidir.
Sample Sentence (EN): The spacecraft uses a powerful propulsion system to travel through space.
Sample Sentence (TR): Uzay aracı, uzayda yolculuk yapmak için güçlü bir itki sistemi kullanır.
15.Propel
Definition (EN): In an engineering context, to "propel" means to push or drive an object forward through a medium, typically with the use of propulsion systems or engines. It is a fundamental concept in transportation and aerospace engineering.
Definition (TR): Mühendislik bağlamında, "itmek" bir nesneyi bir ortamda ileri doğru itmek veya sürüklemek anlamına gelir; genellikle itki sistemleri veya motorlarla yapılır. Ulaştırma ve havacılık mühendisliğinde temel bir kavramdır.
Sample Sentence (EN): The engines propel the aircraft to its cruising altitude.
Sample Sentence (TR): Motorlar, uçağı seyir irtifasına çıkarmak için ileri iter.
READING
Read the text below and answer the questions:
Over the past decade, aerospace engineering has witnessed a phenomenal takeoff in innovation. Engineers have developed unmanned spacecraft with colossal payloads designed to reach geostationary altitudes. These spacecraft are equipped with advanced components, including powerful propulsion systems, to propel them to their destinations in space.
One of the key challenges in modern aerospace engineering is managing space debris. As more satellites and rockets are launched, the risk of collisions with debris in orbit increases. Engineers are exploring innovative solutions, including offshore anchoring platforms for satellite deployment and debris removal technologies, to mitigate these risks and ensure the safety of space missions.
In summary, the last decade has seen remarkable advancements in aerospace engineering, from the takeoff of cutting-edge spacecraft to the development of propulsion systems. The field continues to evolve as engineers work diligently to address challenges such as debris management while pushing the boundaries of what is achievable in space exploration.
1.What has aerospace engineering witnessed over the past decade?
a) A decline in innovation c) A remarkable takeoff in innovation
b) A steady progress in technology d) A shift towards manned missions
2.What is the primary purpose of unmanned spacecraft mentioned in the text?
a) Studying colossal celestial bodies c) Transporting cargo to Earth's orbit
b) Carrying astronauts to space d) Exploring underwater environments
3.What is a geostationary altitude?
a) An altitude achieved by mountaineers
b) An altitude above 100,000 feet
c) An orbit where a satellite remains fixed relative to the Earth's surface
d) The maximum altitude reached by rockets
4.What do engineers use powerful propulsion systems for in spacecraft?
a) To launch spacecraft from Earth's surface c) To study colossal celestial bodies
b) To maintain a stable position in orbit d) To communicate with satellites
5.What is one of the key challenges mentioned in the text regarding space missions?
a) Achieving a geostationary altitude c) Managing space debris
b) Launching manned spacecraft d) Developing offshore wind farms
6.What purpose do offshore anchoring platforms serve in aerospace engineering?
a) To secure boats and ships in open waters c) To anchor satellites to the Earth's surface
b) To provide stable foundations for rockets d) To study marine ecosystems
7.What is the significance of managing space debris in space missions?
a) It ensures that all space debris is removed from orbit.
b) It reduces the risk of collisions and ensures mission safety.
c) It allows for the safe return of astronauts to Earth.
d) It prevents satellites from achieving geostationary orbits.
8.What is the overarching theme/main idea of the text?
a) The decline of aerospace engineering c) The benefits of offshore technology
b) The challenges of space exploration d) The history of manned space missions
VOCABULARY
Complete the sentences below by using the provided vocabulary above:
1.Over the past ______________, there have been significant advancements in the field of aerospace engineering.
2.During a rocket's ______________ phase, it accelerates rapidly to leave Earth's atmosphere.
3.The most critical ______________ of a computer system is its central processing unit (CPU).
4.The spacecraft was designed to carry a heavy ______________ into space for scientific research.
5.The ______________ at which an aircraft flies can vary depending on its mission and destination.
6.The Great Wall of China is often described as a ______________ engineering marvel due to its immense size and complexity.
7.A ______________ orbit is one in which a satellite appears to hover over a fixed point on Earth's surface.
8.The success of the project was nothing short of ______________, with groundbreaking discoveries made.
9.The ______________ aircraft completed a mission on Mars without a human pilot on board.
10.Space agencies are concerned about the growing problem of space ______________, which poses a danger to orbiting satellites.
11.The construction of ______________ wind farms requires specialized technology and engineering expertise.
12.The primary purpose of an ______________ platform is to provide stability for offshore structures.
13.The ______________ system of a spacecraft is responsible for generating the thrust needed to reach space.
14.Rockets use powerful engines to ______________ them into orbit.
ANSWER KEY
Reading part – Answers and explanations
1. What has aerospace engineering witnessed over the past decade? Answer: c) A remarkable takeoff in innovation Explanation: The text states that aerospace engineering has experienced a "phenomenal takeoff in innovation" over the past decade, indicating significant advancements.
2. What is the primary purpose of unmanned spacecraft mentioned in the text? Answer: c) Transporting cargo to Earth's orbit Explanation: The text discusses unmanned spacecraft designed to carry "colossal payloads" to reach "geostationary altitudes," implying their role in transporting cargo rather than carrying astronauts or studying celestial bodies.
3. What is a geostationary altitude? Answer: c) An orbit where a satellite remains fixed relative to the Earth's surface Explanation: The text defines geostationary altitudes as where spacecraft remain fixed in relation to a specific point on Earth's surface, essential for communication satellites.
4. What do engineers use powerful propulsion systems for in spacecraft? Answer: a) To launch spacecraft from Earth's surface Explanation: The text states that spacecraft are equipped with "powerful propulsion systems" to "propel them to their destinations in space," indicating their primary function in launching and maneuvering spacecraft.
5. What is one of the key challenges mentioned in the text regarding space missions? Answer: c) Managing space debris
Explanation: The text explicitly mentions that managing space debris is a key challenge as more satellites and rockets are launched, increasing the risk of collisions.
6. What purpose do offshore anchoring platforms serve in aerospace engineering? Answer: b) To provide stable foundations for rockets Explanation: The text discusses offshore anchoring platforms as part of innovative solutions for satellite deployment and debris removal, indicating their role in providing stability for these operations.
7. What is the significance of managing space debris in space missions? Answer: b) It reduces the risk of collisions and ensures mission safety. Explanation: The text highlights the increasing risk of collisions with space debris as a concern for space missions, emphasizing the need for management to ensure safety.
8. What is the overarching theme/main idea of the text? Answer: b) The challenges of space exploration Explanation: While the text discusses advancements in aerospace engineering, the primary focus is on the challenges faced, such as managing space debris, which underlines the complexities of space exploration.
Vocabulary answer key:
1.Decade 2. Takeoff 3. Component 4. Payload 5. Altitude 6. Colossal
7. geostationary 8. Phenomenal 9. Unmanned 10. Debris 11. Offshore
12. anchoring 13. Propulsion 14. propel
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