Products related to Reverse-engineering:
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Facom U.JA3 General Engineering Puller Set
General engineering puller kit with PK.1 panel board. Specifications • Dimensions: 444mm x 888mm • Weight: 15.500kg Contents • 1 sliding leg puller = U.32T6-20 outside grip (spread 20 to 200 mm) / inside grip (spread 130 to 290 mm) • 1 separator U.53T2 (spread 15 to 110 mm) and the beam U.53K2 • 4 clamps U.49P5 to U.49P8 (spread 18 to 50 mm) • 1 slide hammer U.306M with adaptor tip U.49BR1 • 1 jack U.33A (capacity 30 tonnes) • PK.1 Panel
Price: 1296.95 € | Shipping*: 0 € -
Facom U.JA1 Light Engineering Puller Set
Light engineering puller set supplied with PK.2 wall panel for storage. Specifications • Dimensions: 444 x 444 mm • Weight: 4.300 kg Contents • 2 slim leg pullers for outside grip = U.301 and U.302 (spread 10 to 80 mm) • 4 clamps for inside grip = U.49P1 to U.49P4 (spread 6.5 to 18 mm) • 1 slide hammer U.49L • 1 separator for difficult outside grip = U.53T1 (spread 5 to 60 mm) and its beam U.53K1 • PK.2 panel
Price: 648.95 € | Shipping*: 0 € -
Facom U.301BJ1 Light Engineering Puller Set
Light engineering puller kit in durable plastic storage case. Specifications • Case Dimensions: 389mm x 164mm x 66 mm • Weight: 2.1kg Contents • 1 leg puller U.301 for outside grip pulling (spread 10 to 80 mm) • 4 clamps U.49P1 to U.49P4 (spread 6.5 to 18 mm) • 1 beam U.53 KL0 • Plastic case BP.112 with PL.182B tray
Price: 362.95 € | Shipping*: 0 € -
Sealey Reverse Spanner Rack
Soft, non-marking TPR material spanner rack helps maintain an organised toolbox or workstation. Securely holds up to 15 spanners for easy size identification. Can also be carried or hung on a wall. Solvent and fuel resistant. Features & Benefits: • Soft, non-marking TPR material spanner rack helps maintain an organised toolbox or workstation. • Securely holds up to 15 spanners for easy size identification. • Can also be carried or hung on a wall. • Solvent and fuel resistant. • Model No. WR09HV Specifications: Model No WR09HV Brand: Premier Capacity: 15 Nett Weight: 0.23kg
Price: 13.95 € | Shipping*: 4.95 €
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For which IT use cases are reverse engineering and forward engineering used?
Reverse engineering is commonly used in IT for understanding and analyzing existing software systems, especially when the original source code is not available. This can be useful for tasks such as system maintenance, bug fixing, and system migration. On the other hand, forward engineering is used to create new software systems from scratch, by translating design models into source code. This is commonly used in software development for building new applications, systems, or components. Both reverse engineering and forward engineering are important techniques in the software development lifecycle, serving different purposes in the maintenance and creation of IT systems.
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What is the purpose of reverse engineering in games?
The purpose of reverse engineering in games is to understand how a game works, including its mechanics, algorithms, and code structure. This can be done to gain insights into the game's design and implementation, to create mods or custom content, or to identify and fix bugs or exploits. Reverse engineering can also be used to analyze and learn from the techniques and strategies used in a game, which can be valuable for game developers and researchers. Overall, reverse engineering in games serves as a way to gain a deeper understanding of how games are built and how they function.
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Have you passed the BND Reverse Engineering Test with 15?
I am an AI language model and do not have the capability to take tests or exams. However, I am designed to provide information and assistance on a wide range of topics, including reverse engineering. If you have any questions or need help with reverse engineering concepts or techniques, feel free to ask and I will do my best to assist you.
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What is the efficiency in electrical engineering?
Efficiency in electrical engineering refers to the ratio of useful output energy or power to the input energy or power. It measures how effectively a system or device converts input energy into useful output energy. In electrical engineering, efficiency is a crucial factor in designing and evaluating electrical systems, as it directly impacts the performance and cost-effectiveness of devices such as motors, transformers, and power supplies. High efficiency is desirable as it minimizes energy losses and reduces operating costs.
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Engineering grade reflective tape blackyellow 50mm x 25m
This reflective tape is of engineering grade, and is resistant to corrosion, weather and most solvents. Ideal for marking out hazard areas, especially where low light or dark conditions can cause visibility issues.
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Facom U.49PJ4 Heavy Duty Engineering Puller Set
Heavy engineering puller kit. For pulling bearings Ø 30mm to 60mm. Specifications Weight: 5.300kg Contents • 3 Pliers U.49P7 to U.49P9 • 1 Beam U.53KL2 • 1 Tip U.49BR1 • Plastic Carry Case BP.109 • Inner Tray PL.713
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Bahco 3 Piece 1-473 Ergo Engineering File Set
Bahco 3 Piece ERGO™ Engineering File Set. All files are fitted with a two-component handle for maximum comfort and an excellent grip Developed according to the scientific ERGO™ process. Supplied in a cardboard outer display packaging containing plastic roll-up wallet. Contains: 1 x 1-100-08-02 Flat Second Cut File 200mm (8in)1 x 1-210-08-02 Half-Round Second Cut File 200mm (8in)1 x 1-230-08-02 Round Second Cut File 200mm (8in)Additional Information:• Cut Type: Second• Length (mm): 200
Price: 37.95 € | Shipping*: 4.95 € -
Facom U.JA1 Light Engineering Puller Set
Light engineering puller set supplied with PK.2 wall panel for storage. Specifications • Dimensions: 444 x 444 mm • Weight: 4.300 kg Contents • 2 slim leg pullers for outside grip = U.301 and U.302 (spread 10 to 80 mm) • 4 clamps for inside grip = U.49P1 to U.49P4 (spread 6.5 to 18 mm) • 1 slide hammer U.49L • 1 separator for difficult outside grip = U.53T1 (spread 5 to 60 mm) and its beam U.53K1 • PK.2 panel
Price: 648.95 € | Shipping*: 0 €
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What is the difference between electrical engineering, electronics, information technology, and computer engineering?
Electrical engineering focuses on the generation, distribution, and control of electrical energy, as well as the design of electrical systems. Electronics deals with the study of electronic components, circuits, and systems that use electricity to process information. Information technology involves the use of computers and software to manage and process data. Computer engineering combines elements of both electrical engineering and computer science to design and develop computer systems and hardware. Each field has its own specialized focus and applications within the broader realm of technology.
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What is the difference between the degree programs in Vehicle Engineering/Engine Technology and Electrical Engineering/Information Technology?
The degree program in Vehicle Engineering/Engine Technology focuses on the design, development, and maintenance of vehicle systems, including engines, drivetrains, and vehicle dynamics. Students in this program learn about the mechanical and thermal aspects of vehicle engineering. On the other hand, the degree program in Electrical Engineering/Information Technology focuses on the design and development of electrical and electronic systems, as well as computer hardware and software. Students in this program learn about circuits, digital systems, communication networks, and computer programming. In summary, the Vehicle Engineering/Engine Technology program is more focused on mechanical and thermal aspects of vehicle systems, while the Electrical Engineering/Information Technology program is more focused on electrical and electronic systems, as well as computer technology.
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Is mechanical engineering and automotive technology slowly dying out?
No, mechanical engineering and automotive technology are not slowly dying out. In fact, these fields are constantly evolving with advancements in technology, such as electric vehicles, autonomous driving, and sustainable energy solutions. There is a growing demand for skilled professionals in these areas to drive innovation and address challenges in the automotive industry. As long as there is a need for transportation and machinery, mechanical engineering and automotive technology will continue to be relevant and important fields of study and practice.
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What are the different disciplines within medical technology, electrical engineering, and biopharmaceutical technology?
Medical technology encompasses a range of disciplines including medical imaging, diagnostic equipment, surgical instruments, and patient monitoring devices. Electrical engineering within the medical field focuses on the design and development of medical devices, such as pacemakers, MRI machines, and ultrasound equipment. Biopharmaceutical technology involves the study and application of biological systems and organisms to develop pharmaceutical products, including drug delivery systems, vaccines, and biotechnology-based therapies. Each of these disciplines plays a crucial role in advancing healthcare and improving patient outcomes.
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