This document presents information about ballistic missiles. It begins with an introduction and overview of the presentation. It then discusses the history of ballistic missiles, including their origins in China in the 1300s and development of modern missiles like the V-2 and R-7. It describes the different types of missiles and how ballistic missiles work using Newton's third law. It outlines the major components of missiles like the warhead, guidance system, and propulsion system. It explains the different types of guidance systems and propulsion methods. It concludes by discussing some advantages and disadvantages of ballistic missiles and prospects for their future development.
Presentation ON MISSILES AND ITS CLASSIFICATIONmohanreddy04
This document provides an overview of the history and components of missiles. It discusses how rockets were first invented in medieval China and later developed by Tipu Sultan in India. After independence, India focused on space technology and missile development. The major components of a missile are the warhead, guidance system, and propulsion system. Missiles can be categorized based on their target, such as air-to-air, surface-to-air, anti-ship, and cruise missiles. The document describes different types of missiles and includes examples.
Pakistan has developed an advanced missile program. It has short-range missiles like Ghaznavi (300km) and Shaheen-I (750-900km), and medium-range missiles like Ghauri-I (1,500km) and Shaheen-III (2,750km). Pakistan also has the tactical Nasr missile (60km) and the cruise missile Babur (450+km). Missiles work using rocket propulsion and guidance systems, and can have different payloads like conventional, chemical, biological or nuclear warheads. Pakistan's missiles demonstrate its growing indigenous defense capabilities.
This document defines and categorizes different types of powered guided munitions. It outlines their key parts like guidance and propulsion systems. It then describes different modes like air-to-air and surface-to-surface. Finally, it details various guidance systems for powered munitions including line-of-sight homing, inertial navigation, and satellite guidance as well as ballistic and cruise missiles.
THIS IS A SEMINAR REPORT ON GUIDED MISSILE. IN THIS REPORT YOU WILL FIND A BRIEF INTRODUCTION LIKE WHAT IS GUIDED MISSILE , TYPES OF MISSILE ,TYPES OF CONTROL AND GUIDANCE SYSTEM, WARHEAD , FUZES.
This document provides information about different types of missiles used in India. It discusses that missiles have four main components: targeting/guidance, flight system, engine, and warhead. It then describes different types of missiles including conventional guided missiles, ballistic missiles, cruise missiles, and provides examples of specific missiles developed in India, such as the Agni-V, BrahMos, Nirbhay, and Akash missiles. It also discusses India's expanding missile capabilities including development of nuclear-powered submarines and new cruise and anti-tank missiles.
Cruise Missile Technology By Takalikar Mayur pptmayur takalikar
This document summarizes information about cruise missile technology. It describes cruise missiles as small, self-navigating unmanned aerial vehicles that can deliver warheads over long distances with precision. Key aspects discussed include guidance systems like inertial navigation and terrain contour matching; categories based on size, speed, range and launch platform; and historical examples like the Tomahawk and BrahMos missiles. Advantages are their small size and accuracy, while limitations are lack of reusability and vulnerability to interception. Recent uses demonstrate over 90% success rates in American strikes on Afghanistan and Iraq.
The document discusses different types of missiles. It describes missiles as self-propelled precision weapons that can destroy targets like aircraft, satellites, ships, and tanks. The key types discussed are air-to-air missiles launched from aircraft to target other aircraft, air-to-surface missiles that attack land or sea targets, surface-to-air missiles launched from ground to target aircraft, and surface-to-surface missiles that strike land or sea targets over long ranges. The document also covers submarine-launched missiles, ballistic missiles that travel along an initial high trajectory, and cruise missiles that are aerodynamically guided over long distances with accuracy.
This document presents information about ballistic missiles. It begins with an introduction and overview of the presentation. It then discusses the history of ballistic missiles, including their origins in China in the 1300s and development of modern missiles like the V-2 and R-7. It describes the different types of missiles and how ballistic missiles work using Newton's third law. It outlines the major components of missiles like the warhead, guidance system, and propulsion system. It explains the different types of guidance systems and propulsion methods. It concludes by discussing some advantages and disadvantages of ballistic missiles and prospects for their future development.
Presentation ON MISSILES AND ITS CLASSIFICATIONmohanreddy04
This document provides an overview of the history and components of missiles. It discusses how rockets were first invented in medieval China and later developed by Tipu Sultan in India. After independence, India focused on space technology and missile development. The major components of a missile are the warhead, guidance system, and propulsion system. Missiles can be categorized based on their target, such as air-to-air, surface-to-air, anti-ship, and cruise missiles. The document describes different types of missiles and includes examples.
Pakistan has developed an advanced missile program. It has short-range missiles like Ghaznavi (300km) and Shaheen-I (750-900km), and medium-range missiles like Ghauri-I (1,500km) and Shaheen-III (2,750km). Pakistan also has the tactical Nasr missile (60km) and the cruise missile Babur (450+km). Missiles work using rocket propulsion and guidance systems, and can have different payloads like conventional, chemical, biological or nuclear warheads. Pakistan's missiles demonstrate its growing indigenous defense capabilities.
This document defines and categorizes different types of powered guided munitions. It outlines their key parts like guidance and propulsion systems. It then describes different modes like air-to-air and surface-to-surface. Finally, it details various guidance systems for powered munitions including line-of-sight homing, inertial navigation, and satellite guidance as well as ballistic and cruise missiles.
THIS IS A SEMINAR REPORT ON GUIDED MISSILE. IN THIS REPORT YOU WILL FIND A BRIEF INTRODUCTION LIKE WHAT IS GUIDED MISSILE , TYPES OF MISSILE ,TYPES OF CONTROL AND GUIDANCE SYSTEM, WARHEAD , FUZES.
This document provides information about different types of missiles used in India. It discusses that missiles have four main components: targeting/guidance, flight system, engine, and warhead. It then describes different types of missiles including conventional guided missiles, ballistic missiles, cruise missiles, and provides examples of specific missiles developed in India, such as the Agni-V, BrahMos, Nirbhay, and Akash missiles. It also discusses India's expanding missile capabilities including development of nuclear-powered submarines and new cruise and anti-tank missiles.
Cruise Missile Technology By Takalikar Mayur pptmayur takalikar
This document summarizes information about cruise missile technology. It describes cruise missiles as small, self-navigating unmanned aerial vehicles that can deliver warheads over long distances with precision. Key aspects discussed include guidance systems like inertial navigation and terrain contour matching; categories based on size, speed, range and launch platform; and historical examples like the Tomahawk and BrahMos missiles. Advantages are their small size and accuracy, while limitations are lack of reusability and vulnerability to interception. Recent uses demonstrate over 90% success rates in American strikes on Afghanistan and Iraq.
The document discusses different types of missiles. It describes missiles as self-propelled precision weapons that can destroy targets like aircraft, satellites, ships, and tanks. The key types discussed are air-to-air missiles launched from aircraft to target other aircraft, air-to-surface missiles that attack land or sea targets, surface-to-air missiles launched from ground to target aircraft, and surface-to-surface missiles that strike land or sea targets over long ranges. The document also covers submarine-launched missiles, ballistic missiles that travel along an initial high trajectory, and cruise missiles that are aerodynamically guided over long distances with accuracy.
The document discusses missile technology, providing definitions and describing the basic parts of missiles including guidance, flight systems, engines, and warheads. It explains the principles of tracking, guidance, and flight for different types of missile engines. The document also describes different types of missiles and their specifications, including air-to-air, air-to-ground, surface-to-air, and ballistic missiles. It discusses various guidance systems used in missiles like inertial navigation systems, terrain contour matching, and global positioning satellites. Active homing, passive homing and semi-active homing guidance methods are also summarized.
This document provides an overview of missiles and their components. It discusses the history of missiles beginning with rockets invented in medieval China. Modern Indian missiles are then discussed, highlighting programs like Agni and Prithvi. The key components of missiles are described as the warhead, guidance system, propulsion, and fins. Common guidance methods include laser, infrared homing and GPS. Propulsion systems can include turbojets, ramjets and pulsejets. In summary, the document provides a high-level history and technical overview of missiles and their components.
Up to my knowledge, I collect all information about Indian missiles for the purpose of missile studies and their types to know simple understanding, to get educate their thought.
1. Guided missiles are objects that can be directed to a target through various guidance technologies. They incorporate a propulsion system to provide force, an intelligence system to guide it correctly, and control technologies.
2. Early developments included rockets used in China and India over 1000 years ago and unguided rockets used against the British in the 18th century. Modern guided missiles began with German V-1 and V-2 missiles in World War II.
3. Missiles can be guided through different methods including command guidance, homing guidance, beam rider guidance, inertial guidance, and stellar guidance. India's Integrated Guided Missile Development Program from the 1980s-2008 developed strategic missiles like Agni 3 under
This document provides an overview of anti-ballistic missiles and missile technology. It begins with classifications of different types of missiles based on their range and propulsion, including ballistic missiles and cruise missiles. It then discusses key components of missiles like propulsion systems, guidance and control systems, aerodynamics, warheads and fuzes. Emerging technologies like hypersonic cruise missiles are also mentioned. The document serves to introduce the topic of anti-ballistic missiles and provide a technical overview of missile design and components.
This document provides an overview of ballistic missile systems. It begins with definitions of missiles and their classification. It then discusses the key components of ballistic missiles, including warheads, fuses, guidance systems, and propulsion systems. The document outlines the working principle of ballistic missiles and describes their flight in different phases. It also briefly discusses the history of ballistic missile development in India.
Missiles are classified based on their type, launch mode, range, propulsion, warhead, and guidance system. The document outlines the key classifications of each category: types include cruise and ballistic missiles; launch modes include surface-to-surface, surface-to-air, etc.; ranges are short, medium, intermediate, and intercontinental; propulsion includes solid, liquid, hybrid, ramjet, scramjet, and cryogenic; warheads can be conventional, strategic, chemical, biological, or nuclear; and guidance systems range from wire guidance to inertial guidance, terrain comparison, and laser or GPS guidance.
1. The document discusses the history and components of missile technology, including guidance systems, propulsion, and classifications of missiles like ballistic and cruise.
2. It provides details on India's integrated guided missile development program and key missiles developed, including Prithvi, Agni, Dhanush, and the supersonic Brahmos cruise missile jointly produced with Russia.
3. The document concludes that while missiles are generally harmful, they may be necessary in today's world for protection against threats like terrorism from other countries.
This document discusses cruise missile technology. It begins by defining cruise missiles as small, self-navigating unmanned aerial vehicles that can travel long distances at high speeds to precisely deliver warheads. It then covers the general design of cruise missiles including guidance systems, payloads, and propulsion. Different categories of cruise missiles are outlined based on launch platform and specifications. Guidance system types like inertial navigation, terrain contour matching and digital scene mapping are also summarized. The document concludes with sections on advantages and disadvantages of cruise missiles as well as examples of modern cruise missile systems like BrahMos.
This document defines and describes missiles. It begins by explaining that a missile is any object thrown at a target to hit it, such as a stone thrown at a bird. Modern missiles are precision-guided munitions with propulsion, guidance, and control systems. The key components of a missile are a warhead, propulsion system, guidance system, and control system. Missiles are classified based on their method of launching and range. Guidance systems include command, homing, beam rider, and inertial guidance. Early guided missiles included the German V-1 and V-2 rockets from World War II.
Thank you for all video clips.
https://www.youtube.com/watch?v=HWZXinRwCaE (icbm)
https://www.youtube.com/watch?v=mE-q1IaPIUk (how missiles launch)
https://www.youtube.com/watch?v=SOXmVi3A_PI (satan R36)
https://www.youtube.com/watch?v=LvHlW1h_0XQ (LRASM)
Cruise missile technology By shailesh shukla pptSHAILESH SHUKLA
Cruise missiles are small, pilotless airplanes powered by turbofan engines that can precisely deliver bombs up to 1,000 miles away. They use various guidance systems like inertial navigation, terrain contour matching, and digital scene mapping to navigate to their targets. Inertial navigation uses accelerometers and gyroscopes to measure movement, while terrain contour matching compares onboard radar measurements to pre-recorded terrain maps to determine location. Cruise missiles offer advantages like low cost and small size, but also have disadvantages like lack of reusability and vulnerability to defenses. Their guidance systems require careful design for accurate target interception.
The document provides information about cruise missiles, including their general design and components. It discusses the different types of cruise missiles such as land attack and anti-ship missiles. It also describes the various propulsion systems, speeds, flight trajectories, launching techniques, guidance systems, warheads, and some examples of Indian cruise missiles like BrahMos and Nirbhay. The advantages of cruise missiles are their small size and cost effectiveness compared to piloted weapons. However, their limitations include not being reusable and being vulnerable to air defenses due to their low-altitude flight profiles. In conclusion, cruise missiles are expensive single-use weapons but cheaper than alternatives when total costs are considered, and accurate guidance systems are critical for their target interception
The document provides details on the history of US ballistic missile defense programs from 1944 to present day. It discusses early programs like Project Nike and Safeguard that tracked missiles. It then covers the Strategic Defense Initiative from the 1980s which conducted tests like Homing Overlay Experiments demonstrating intercepts. Subsequent programs tested interceptors like the ERIS, HEDI, and Ground Based Interceptor. The document also provides information on various radars used for detection and tracking like Cobra Dane, PAVE PAWS, and Sea-Based X-Band Radar.
Cruise missiles form a major part of modern warfare and have spread extensively to all branches of the military. Their effective use in a modern conflict can change the outcome of war without resorting to nuclear weapons. Improvements in cruise missile technology will see more intelligent, self-manoeuvring and hypersonic missiles flood the world market. But whatever happens, cruise missiles will remain one of the most reliable weapons for the foreseeable future.
This document summarizes guided missiles and their guidance systems. It discusses the principle of guided missiles and some key parts like the guidance system. It then describes several major types of guidance systems used in missiles like remote control, beam riding, laser guidance, active radar homing, wire guidance, and infrared homing. It provides examples of different missiles that use these guidance systems, such as anti-satellite, anti-ship, anti-tank, and intercontinental ballistic missiles.
This document provides an overview of missile technology, including:
- The history of missiles dating back to medieval China and their use by Indian rulers against British forces.
- The key components of missiles like warheads, guidance systems, and propulsion systems.
- Types of missiles classified by range, propulsion, and guidance systems.
- India's indigenous missile programs and missiles like Prithvi, Agni, Akash, Dhanush, and the supersonic BrahMos cruise missile developed with Russia.
- The Integrated Guided Missile Development Program established in the 1980s that developed India's strategic missiles and concluded successfully in 2008.
India's advancement in missile defence systemRajesh b.k.
A missile is a self-propelled precision-guided munition with four key components: guidance, flight system, engine, and warhead. India has developed various missiles through DRDO for its defense, including Prithvi, Agni, Akash, and BrahMos. DRDO was established to develop a multilayered ballistic missile defense system to protect India from ballistic missile attacks. Important current and future missiles discussed are Agni 1-5, Prahaar, Dhanush, Shaurya, BrahMos, Astra, and Surya 1-2.
The document provides an overview of the BrahMos cruise missile jointly developed by India and Russia. It discusses the missile's history, components, specifications, variants for different launch platforms (land, air, sea), and production and deployment in India and Russia. The document also outlines future plans to extend the missile's range to 600km, develop a hypersonic variant called BrahMos-II with Mach 7 speed, and a smaller next generation variant called BrahMos-NG.
India has developed a comprehensive range of missile systems for defense purposes. The missile programs are managed by the Defence Research and Development Organisation (DRDO) and include short-range missiles like Prithvi, intermediate-range missiles like Agni, the BrahMos cruise missile, anti-tank missiles, surface-to-air missiles, and submarine-launched ballistic missiles. India is also developing an anti-ballistic missile defense system to intercept incoming missiles to provide protection from attacks.
This document provides an overview of missile technology, including:
1. It defines missiles and discusses their history, originating in medieval China and used effectively by Indian rulers against British forces.
2. The major components of missiles are described as the warhead, fuze conductor, guidance system, and propulsion system.
3. Missiles are classified based on their range, propulsion, guidance systems, and launch mode, including surface-to-surface, surface-to-air, ballistic, and cruise missiles.
4. India's integrated guided missile development program and current missile capabilities are briefly outlined.
The document discusses missile technology, providing definitions and describing the basic parts of missiles including guidance, flight systems, engines, and warheads. It explains the principles of tracking, guidance, and flight for different types of missile engines. The document also describes different types of missiles and their specifications, including air-to-air, air-to-ground, surface-to-air, and ballistic missiles. It discusses various guidance systems used in missiles like inertial navigation systems, terrain contour matching, and global positioning satellites. Active homing, passive homing and semi-active homing guidance methods are also summarized.
This document provides an overview of missiles and their components. It discusses the history of missiles beginning with rockets invented in medieval China. Modern Indian missiles are then discussed, highlighting programs like Agni and Prithvi. The key components of missiles are described as the warhead, guidance system, propulsion, and fins. Common guidance methods include laser, infrared homing and GPS. Propulsion systems can include turbojets, ramjets and pulsejets. In summary, the document provides a high-level history and technical overview of missiles and their components.
Up to my knowledge, I collect all information about Indian missiles for the purpose of missile studies and their types to know simple understanding, to get educate their thought.
1. Guided missiles are objects that can be directed to a target through various guidance technologies. They incorporate a propulsion system to provide force, an intelligence system to guide it correctly, and control technologies.
2. Early developments included rockets used in China and India over 1000 years ago and unguided rockets used against the British in the 18th century. Modern guided missiles began with German V-1 and V-2 missiles in World War II.
3. Missiles can be guided through different methods including command guidance, homing guidance, beam rider guidance, inertial guidance, and stellar guidance. India's Integrated Guided Missile Development Program from the 1980s-2008 developed strategic missiles like Agni 3 under
This document provides an overview of anti-ballistic missiles and missile technology. It begins with classifications of different types of missiles based on their range and propulsion, including ballistic missiles and cruise missiles. It then discusses key components of missiles like propulsion systems, guidance and control systems, aerodynamics, warheads and fuzes. Emerging technologies like hypersonic cruise missiles are also mentioned. The document serves to introduce the topic of anti-ballistic missiles and provide a technical overview of missile design and components.
This document provides an overview of ballistic missile systems. It begins with definitions of missiles and their classification. It then discusses the key components of ballistic missiles, including warheads, fuses, guidance systems, and propulsion systems. The document outlines the working principle of ballistic missiles and describes their flight in different phases. It also briefly discusses the history of ballistic missile development in India.
Missiles are classified based on their type, launch mode, range, propulsion, warhead, and guidance system. The document outlines the key classifications of each category: types include cruise and ballistic missiles; launch modes include surface-to-surface, surface-to-air, etc.; ranges are short, medium, intermediate, and intercontinental; propulsion includes solid, liquid, hybrid, ramjet, scramjet, and cryogenic; warheads can be conventional, strategic, chemical, biological, or nuclear; and guidance systems range from wire guidance to inertial guidance, terrain comparison, and laser or GPS guidance.
1. The document discusses the history and components of missile technology, including guidance systems, propulsion, and classifications of missiles like ballistic and cruise.
2. It provides details on India's integrated guided missile development program and key missiles developed, including Prithvi, Agni, Dhanush, and the supersonic Brahmos cruise missile jointly produced with Russia.
3. The document concludes that while missiles are generally harmful, they may be necessary in today's world for protection against threats like terrorism from other countries.
This document discusses cruise missile technology. It begins by defining cruise missiles as small, self-navigating unmanned aerial vehicles that can travel long distances at high speeds to precisely deliver warheads. It then covers the general design of cruise missiles including guidance systems, payloads, and propulsion. Different categories of cruise missiles are outlined based on launch platform and specifications. Guidance system types like inertial navigation, terrain contour matching and digital scene mapping are also summarized. The document concludes with sections on advantages and disadvantages of cruise missiles as well as examples of modern cruise missile systems like BrahMos.
This document defines and describes missiles. It begins by explaining that a missile is any object thrown at a target to hit it, such as a stone thrown at a bird. Modern missiles are precision-guided munitions with propulsion, guidance, and control systems. The key components of a missile are a warhead, propulsion system, guidance system, and control system. Missiles are classified based on their method of launching and range. Guidance systems include command, homing, beam rider, and inertial guidance. Early guided missiles included the German V-1 and V-2 rockets from World War II.
Thank you for all video clips.
https://www.youtube.com/watch?v=HWZXinRwCaE (icbm)
https://www.youtube.com/watch?v=mE-q1IaPIUk (how missiles launch)
https://www.youtube.com/watch?v=SOXmVi3A_PI (satan R36)
https://www.youtube.com/watch?v=LvHlW1h_0XQ (LRASM)
Cruise missile technology By shailesh shukla pptSHAILESH SHUKLA
Cruise missiles are small, pilotless airplanes powered by turbofan engines that can precisely deliver bombs up to 1,000 miles away. They use various guidance systems like inertial navigation, terrain contour matching, and digital scene mapping to navigate to their targets. Inertial navigation uses accelerometers and gyroscopes to measure movement, while terrain contour matching compares onboard radar measurements to pre-recorded terrain maps to determine location. Cruise missiles offer advantages like low cost and small size, but also have disadvantages like lack of reusability and vulnerability to defenses. Their guidance systems require careful design for accurate target interception.
The document provides information about cruise missiles, including their general design and components. It discusses the different types of cruise missiles such as land attack and anti-ship missiles. It also describes the various propulsion systems, speeds, flight trajectories, launching techniques, guidance systems, warheads, and some examples of Indian cruise missiles like BrahMos and Nirbhay. The advantages of cruise missiles are their small size and cost effectiveness compared to piloted weapons. However, their limitations include not being reusable and being vulnerable to air defenses due to their low-altitude flight profiles. In conclusion, cruise missiles are expensive single-use weapons but cheaper than alternatives when total costs are considered, and accurate guidance systems are critical for their target interception
The document provides details on the history of US ballistic missile defense programs from 1944 to present day. It discusses early programs like Project Nike and Safeguard that tracked missiles. It then covers the Strategic Defense Initiative from the 1980s which conducted tests like Homing Overlay Experiments demonstrating intercepts. Subsequent programs tested interceptors like the ERIS, HEDI, and Ground Based Interceptor. The document also provides information on various radars used for detection and tracking like Cobra Dane, PAVE PAWS, and Sea-Based X-Band Radar.
Cruise missiles form a major part of modern warfare and have spread extensively to all branches of the military. Their effective use in a modern conflict can change the outcome of war without resorting to nuclear weapons. Improvements in cruise missile technology will see more intelligent, self-manoeuvring and hypersonic missiles flood the world market. But whatever happens, cruise missiles will remain one of the most reliable weapons for the foreseeable future.
This document summarizes guided missiles and their guidance systems. It discusses the principle of guided missiles and some key parts like the guidance system. It then describes several major types of guidance systems used in missiles like remote control, beam riding, laser guidance, active radar homing, wire guidance, and infrared homing. It provides examples of different missiles that use these guidance systems, such as anti-satellite, anti-ship, anti-tank, and intercontinental ballistic missiles.
This document provides an overview of missile technology, including:
- The history of missiles dating back to medieval China and their use by Indian rulers against British forces.
- The key components of missiles like warheads, guidance systems, and propulsion systems.
- Types of missiles classified by range, propulsion, and guidance systems.
- India's indigenous missile programs and missiles like Prithvi, Agni, Akash, Dhanush, and the supersonic BrahMos cruise missile developed with Russia.
- The Integrated Guided Missile Development Program established in the 1980s that developed India's strategic missiles and concluded successfully in 2008.
India's advancement in missile defence systemRajesh b.k.
A missile is a self-propelled precision-guided munition with four key components: guidance, flight system, engine, and warhead. India has developed various missiles through DRDO for its defense, including Prithvi, Agni, Akash, and BrahMos. DRDO was established to develop a multilayered ballistic missile defense system to protect India from ballistic missile attacks. Important current and future missiles discussed are Agni 1-5, Prahaar, Dhanush, Shaurya, BrahMos, Astra, and Surya 1-2.
The document provides an overview of the BrahMos cruise missile jointly developed by India and Russia. It discusses the missile's history, components, specifications, variants for different launch platforms (land, air, sea), and production and deployment in India and Russia. The document also outlines future plans to extend the missile's range to 600km, develop a hypersonic variant called BrahMos-II with Mach 7 speed, and a smaller next generation variant called BrahMos-NG.
India has developed a comprehensive range of missile systems for defense purposes. The missile programs are managed by the Defence Research and Development Organisation (DRDO) and include short-range missiles like Prithvi, intermediate-range missiles like Agni, the BrahMos cruise missile, anti-tank missiles, surface-to-air missiles, and submarine-launched ballistic missiles. India is also developing an anti-ballistic missile defense system to intercept incoming missiles to provide protection from attacks.
This document provides an overview of missile technology, including:
1. It defines missiles and discusses their history, originating in medieval China and used effectively by Indian rulers against British forces.
2. The major components of missiles are described as the warhead, fuze conductor, guidance system, and propulsion system.
3. Missiles are classified based on their range, propulsion, guidance systems, and launch mode, including surface-to-surface, surface-to-air, ballistic, and cruise missiles.
4. India's integrated guided missile development program and current missile capabilities are briefly outlined.
This document provides information about guided missiles in 3 sections:
1) It is a certificate confirming Ramvinay Kumar completed a summer internship on guided missiles to fulfill his Bachelor's degree requirements.
2) It outlines the contents of the internship report, including sections on the history, types, components, and working principles of missiles in India.
3) It delves into the introduction, history, development, and types of missiles in more detail, classifying missiles based on type, launch mode, range, propulsion, warhead, and guidance systems.
Small presentation on different types of missile,their characteristics,technology etc.If anything is wrong let me know.There are some animated videos that will help to understand. Thank you.
The document provides information about cruise missiles, including their general design and components. It discusses the different types of cruise missiles such as land attack and anti-ship missiles. It also describes the various propulsion systems, speeds, flight trajectories, launching techniques, guidance systems, warheads, and some examples of Indian cruise missiles like BrahMos and Nirbhay. The advantages of cruise missiles are their small size and cost effectiveness compared to manned weapons. However, their low altitude flight makes them vulnerable to air defenses. Precise guidance systems are important for cruise missile accuracy.
Hello, I am DHRUV. This Presentation Includes some pictorial representation as well as information about Nuclear Weapons, missiles, bombs, and small weapons. I made this using information from google only. Hope you will like that.
You can understand what is a ballistic missile, how important it is for a country and importance of ballistic missile defence system. It also describes where India stands in BMDS evolution.
The document provides an overview of the evolution of guided missile programs in India, summarizes the key elements of the Strategic Partnership Policy, and highlights recent updates in the defense and civil aviation sectors. It begins with outlining India's Integrated Guided Missile Development Program and the development of key missiles like Prithvi, Trishul, Akash, and Nag. It then summarizes the Strategic Partnership Policy and notes eligibility criteria and selection process. Recent updates on the SCOMET list and industrial licensing are also highlighted. Finally, it provides an overview of the growing civil aviation sector in India.
Aerodynamic characterisitics of a missile componentseSAT Journals
Abstract
A Missile is a self-propelled guided weapon system that travels through air or space. A powered, guided munitions that travels through the air or space is known as a missile (or guided missile). The Missile is defined as a space transversing unmanned vehicle that contains the means for controlling its flight path. The aerodynamic characteristics of a missile components such as body, wing and tail are calculated by using analytical methods to predict the drag and the normal forces of the missile. The total drag of the body is computed by using the parasite drag, wave drag, skin friction drag and base drag. The wing surface normal force coefficient (CN)Wing is a function of Mach number, local angle of attack, aspect ratio, and the wing surface plan form area (CN)Wing , based on the missile reference area, decreases with increasing supersonic Mach number and increases with angle of attack and the wing surface area. When the wing surface area is reduced the total weight of the missile and drag are reduced thereby increasing the lift and achieve excessive stability.
Keywords—Aerodynamics, drag, missile, normal forces and stability
The document provides an overview of loitering munitions, which are unmanned aerial vehicles designed to engage targets with explosive warheads. A defining characteristic is their ability to loiter in the air for an extended period before striking, giving operators time to decide on targets. While initially intended for fixed targets like radar installations, many are now marketed for infantry use. The document outlines various countries developing and using loitering munitions, as well as specific platforms, their characteristics, and introduction dates. It examines concerns about proliferation of the technology and potential future trends, like large swarms of small drones conducting autonomous operations.
Missiles are precision-guided weapons systems that are self-propelled, as opposed to unguided rockets. They have four main components: guidance systems, a flight system, an engine, and a warhead. There are different types of missiles depending on their launch platform and intended targets, such as surface-to-surface missiles, surface-to-air missiles, air-to-air missiles, and anti-satellite weapons. Modern missiles are powered during flight by rocket engines, jet engines, or other types of engines and can be guided to their targets using different technologies like infrared, lasers, or radar systems.
The Mountain Top demonstration in 1996 successfully tested a new type of cooperative engagement called "forward pass" that allowed low-flying drones to be engaged beyond the horizon of an Aegis ship. This was made possible by linking sensors via the Cooperative Engagement Capability. The concept of surface-launched, air-supported engagement of cruise missiles beyond line-of-sight was validated. The demonstration involved the Navy, Marine Corps, Air Force, and Army participating in joint exercises to defend against land-, air-, and sea-based missile threats.
This document provides an overview of stealth technology, including its history, principles, applications, and future developments. It discusses how stealth works to reduce detection by radar, infrared, visual, and acoustic means. Key stealth aircraft are described, such as the F-117, B-2, F-22, and future projects. Stealth has allowed for espionage and more surgical military strikes but remains an expensive technology currently available only to few nations. Continued research aims to expand stealth capabilities to hypersonic speeds and new platforms while also reducing costs.
Guided missiles have evolved significantly over time and now play a major role in modern warfare. They can be guided through various technologies including laser, infrared, radar and GPS systems to precisely target enemies. Future smart weapons are anticipated to have greater autonomy, using advanced sensors and software to identify and engage threats on their own.
The uav applications in india and global trend technologyPriyasloka Arya
This document discusses unmanned aerial vehicles (UAVs) and their applications in India and globally. It begins with an introduction to UAVs, describing them as uncrewed aircraft capable of controlled and sustained flight. It then discusses various types of UAVs based on their functionality and applications, such as for reconnaissance, combat, research and development, and civil/commercial uses. The document also categorizes UAVs based on their altitude and range. It focuses on India's development of UAVs through organizations like DRDO and their various applications in areas like border security, disaster management, and scientific research.
The Sukhoi Su-35 is a heavily upgraded Russian multirole fighter jet based on the Su-27 Flanker design. It has enhanced avionics, radar, weapons, and engine capabilities that allow it to detect and engage multiple aerial targets simultaneously out to ranges of 400km. The Su-35 carries a large payload of air-to-air and air-to-ground weapons on 14 external hardpoints and has an internal 30mm cannon. It is powered by two upgraded AL-41F1S turbofan engines with thrust-vectoring capabilities.
The document discusses the increasing global ballistic and cruise missile threat. It notes that many countries view missiles as cost-effective weapons and that their proliferation presents challenges. The document then profiles the current and emerging missile arsenals and technologies of countries like North Korea, Iran, China, Russia, and others. It discusses trends in missile capabilities like accuracy improvements and hypersonic glide vehicles that make them more effective conventional weapons.
Prediction of Electrical Energy Efficiency Using Information on Consumer's Ac...PriyankaKilaniya
Energy efficiency has been important since the latter part of the last century. The main object of this survey is to determine the energy efficiency knowledge among consumers. Two separate districts in Bangladesh are selected to conduct the survey on households and showrooms about the energy and seller also. The survey uses the data to find some regression equations from which it is easy to predict energy efficiency knowledge. The data is analyzed and calculated based on five important criteria. The initial target was to find some factors that help predict a person's energy efficiency knowledge. From the survey, it is found that the energy efficiency awareness among the people of our country is very low. Relationships between household energy use behaviors are estimated using a unique dataset of about 40 households and 20 showrooms in Bangladesh's Chapainawabganj and Bagerhat districts. Knowledge of energy consumption and energy efficiency technology options is found to be associated with household use of energy conservation practices. Household characteristics also influence household energy use behavior. Younger household cohorts are more likely to adopt energy-efficient technologies and energy conservation practices and place primary importance on energy saving for environmental reasons. Education also influences attitudes toward energy conservation in Bangladesh. Low-education households indicate they primarily save electricity for the environment while high-education households indicate they are motivated by environmental concerns.
Blood finder application project report (1).pdfKamal Acharya
Blood Finder is an emergency time app where a user can search for the blood banks as
well as the registered blood donors around Mumbai. This application also provide an
opportunity for the user of this application to become a registered donor for this user have
to enroll for the donor request from the application itself. If the admin wish to make user
a registered donor, with some of the formalities with the organization it can be done.
Specialization of this application is that the user will not have to register on sign-in for
searching the blood banks and blood donors it can be just done by installing the
application to the mobile.
The purpose of making this application is to save the user’s time for searching blood of
needed blood group during the time of the emergency.
This is an android application developed in Java and XML with the connectivity of
SQLite database. This application will provide most of basic functionality required for an
emergency time application. All the details of Blood banks and Blood donors are stored
in the database i.e. SQLite.
This application allowed the user to get all the information regarding blood banks and
blood donors such as Name, Number, Address, Blood Group, rather than searching it on
the different websites and wasting the precious time. This application is effective and
user friendly.
Null Bangalore | Pentesters Approach to AWS IAMDivyanshu
#Abstract:
- Learn more about the real-world methods for auditing AWS IAM (Identity and Access Management) as a pentester. So let us proceed with a brief discussion of IAM as well as some typical misconfigurations and their potential exploits in order to reinforce the understanding of IAM security best practices.
- Gain actionable insights into AWS IAM policies and roles, using hands on approach.
#Prerequisites:
- Basic understanding of AWS services and architecture
- Familiarity with cloud security concepts
- Experience using the AWS Management Console or AWS CLI.
- For hands on lab create account on [killercoda.com](https://killercoda.com/cloudsecurity-scenario/)
# Scenario Covered:
- Basics of IAM in AWS
- Implementing IAM Policies with Least Privilege to Manage S3 Bucket
- Objective: Create an S3 bucket with least privilege IAM policy and validate access.
- Steps:
- Create S3 bucket.
- Attach least privilege policy to IAM user.
- Validate access.
- Exploiting IAM PassRole Misconfiguration
-Allows a user to pass a specific IAM role to an AWS service (ec2), typically used for service access delegation. Then exploit PassRole Misconfiguration granting unauthorized access to sensitive resources.
- Objective: Demonstrate how a PassRole misconfiguration can grant unauthorized access.
- Steps:
- Allow user to pass IAM role to EC2.
- Exploit misconfiguration for unauthorized access.
- Access sensitive resources.
- Exploiting IAM AssumeRole Misconfiguration with Overly Permissive Role
- An overly permissive IAM role configuration can lead to privilege escalation by creating a role with administrative privileges and allow a user to assume this role.
- Objective: Show how overly permissive IAM roles can lead to privilege escalation.
- Steps:
- Create role with administrative privileges.
- Allow user to assume the role.
- Perform administrative actions.
- Differentiation between PassRole vs AssumeRole
Try at [killercoda.com](https://killercoda.com/cloudsecurity-scenario/)
Determination of Equivalent Circuit parameters and performance characteristic...pvpriya2
Includes the testing of induction motor to draw the circle diagram of induction motor with step wise procedure and calculation for the same. Also explains the working and application of Induction generator
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The Network on Chip (NoC) has emerged as an effective
solution for intercommunication infrastructure within System on
Chip (SoC) designs, overcoming the limitations of traditional
methods that face significant bottlenecks. However, the complexity
of NoC design presents numerous challenges related to
performance metrics such as scalability, latency, power
consumption, and signal integrity. This project addresses the
issues within the router's memory unit and proposes an enhanced
memory structure. To achieve efficient data transfer, FIFO buffers
are implemented in distributed RAM and virtual channels for
FPGA-based NoC. The project introduces advanced FIFO-based
memory units within the NoC router, assessing their performance
in a Bi-directional NoC (Bi-NoC) configuration. The primary
objective is to reduce the router's workload while enhancing the
FIFO internal structure. To further improve data transfer speed,
a Bi-NoC with a self-configurable intercommunication channel is
suggested. Simulation and synthesis results demonstrate
guaranteed throughput, predictable latency, and equitable
network access, showing significant improvement over previous
designs
AI in customer support Use cases solutions development and implementation.pdfmahaffeycheryld
AI in customer support will integrate with emerging technologies such as augmented reality (AR) and virtual reality (VR) to enhance service delivery. AR-enabled smart glasses or VR environments will provide immersive support experiences, allowing customers to visualize solutions, receive step-by-step guidance, and interact with virtual support agents in real-time. These technologies will bridge the gap between physical and digital experiences, offering innovative ways to resolve issues, demonstrate products, and deliver personalized training and support.
https://www.leewayhertz.com/ai-in-customer-support/#How-does-AI-work-in-customer-support
SENTIMENT ANALYSIS ON PPT AND Project template_.pptx
Ballistic missile defense system
1. TOPIC : BALLISTIC MISSILE DEFENSE SYSTEM
SEMINAR
A Presentation by,
ABHISHEK KHOTKAR
Guided by,
Dr. V. B. PANSARE Sir
1
ROLL NO. – 4008
CLASS - BE ‘A’ MECHANICAL
2. CONTENTS
INTRODUCTION
HISTORY
WORKING PRINCIPLE
TYPES AND CLASSIFICATION OF MISSILES
DEVELOPMENT OF INDIAN BMD
MERITS AND DEMERITS
CONCLUSION
FUTURE SCOPE
REFERENCES
2
3. What is missile..?
Missile
Any object thrown at a target with the aim of hitting can be
called as a missile.
'or'
In modern usage, missile is a flying weapon that has its own
engine so that it can travel a long distance before exploding
at the place that it has been aimed at.
Ballistic Missile:
A Ballistic Missile is a missile that follows a ballistic flight
path with the objective of delivering one or more
Warheads to a predetermined target.
3
4. A ballistic missile is launched directly into the high layers
of the earth's atmosphere. It travels well outside the
atmosphere and then the warhead detaches and falls
back to earth. It follows the path of a ball thrown
upwards which falls down. Since it depends on gravity to
reach its target, it's called a ballistic missile.
A ballistic missile is only guided during relatively brief
periods of flight & most of it’s trajectory is unpowered &
governed by gravity.
Shorter range ballistic Missiles stay within the earth's
atmosphere, while longer range ones are designed to
spend some of their flight time above the atmosphere.
4
5. Anti-Ballistic Missile:
An Anti Ballistic Missile (ADM) is Missile
designed to counter ballistic missile.
Ballistic missiles are used to deliver nuclear,
chemical biological or conventional Warhead in
ballistic flight trajectory.
The term "Anti-Ballistic Missile" describes any
anti missile system designed to counter ballistic
missile.
India’s Anti-Ballistic Missiles are Prithvi Air
Defense (PAD) or Pradyumna and Akash Air
Defense (AAD).
5
6. Working Principle
The working of a missile is based on the Newton’s Third
Law i.e. Action and reaction are equal and opposite
The propulsion of a missile is achieved with the help of
a rocket engine. It produces thrust by ejecting very hot
gaseous matter, called propellant.
The hot gases are produced in the combustion
chamber of the rocket engine by chemical reactions.
The propellant is exhausted through a nozzle at a high
speed. This exhaust causes the rocket to move in the
opposite direction (Newton's third law).
6
8. Terminology
WARHEAD
A warhead is an explosive device used in military
conflicts, used to destroy enemy vehicles or
buildings.
Typically, a warhead is delivered by a missile , rocket
or torpedo. It consists of the explosive material, and
a detonator.
Types of warhead :-
Explosive: An explosive charge is used to disintegrate
the target, and damage surrounding areas with a
shockwave.
Chemical: A toxic chemical, such as nerve gas is
dispersed, which is designed to injure or kill human
beings.
8
9. Types of missile
• There are two types of missiles.
• UNGUIDED OR BALLISTIC MISSILES which
moves freely to the target and can’t be
controlled after launching e.g. missiles of tank
• GUIDED MISSILES which are guided through
some remote controls e.g. Cruise missile
9
10. Classification of Missiles
Type Range Propulsion
Guidance
Systems
Launch
Mode
1. Surface-to-Surface
Missile
2. Surface-to-Air Missile
3. Surface (Coast)-to-
Sea Missile
4. Air-to-Air Missile
5. Air-to-Surface Missile
6. Sea-to-Sea Missile
7. Sea-to-Surface
(Coast) Missile
8. Anti-Tank Missile
1. Short Range
Missile
2. Medium
Range Missile
3. Intermediate
Range Ballistic
Missile
4.Intercontinenta
l Ballistic Missile
1. Wire Guidance
2. Command Guidance
3. Terrain Comparison
Guidance
4. Terrestrial Guidance
5. Inertial Guidance
6. Beam Rider
Guidance
7. Laser Guidance
8. RF and GPS
Reference
1. Solid
Propulsion
2. Liquid
Propulsion
3. Hybrid
Propulsion
4. Ramjet
5. Scramjet
6.
Cryogenic
1. Cruise
Missile
2. Ballistic
Missile
10
11. Cruise missile
Unmanned self-propelled guided vehicle
Sustains flight through aerodynamic lift for
most of its flight path
Primary mission is to place an ordnance or
special payload on a target.
Use jet engine technology. Depending upon
the speed such missiles are classified as :
1. Subsonic cruise missile
2. Supersonic cruise missile
3. Hypersonic cruise missile
11
12. MACH Number : Ratio of flow speed relative to a boundary
and the local speed of sound
• Subsonic Speed of about 0.8 mach
ex : Harpoon of USA , Exocet of France
• Supersonic Speed of about 2-3 mach
ex: BRAHMOS
• Hypersonic Speed of more than 5 mach
Around 2.3820 km/s
ex : BRAHMOS - II
12
13. Ballistic missile
• A missile that has a ballistic
trajectory over most of its flight
path.
• Categorized according to their
range, maximum distance.
• First : V-2 rocket by Nazi Germany
13
14. THE BASICS OF BALLISTIC MISSILE
All ballistic missile share a common, fundamental element
The missiles follow a ballistic trajectory which includes three phases
Phase I ---Boost Phase
Phase II –Mid-Course Phase
Phase III – Terminal Phase
14
15. DEVELOPMENT OF INDIAN BMD
India began the development of the ballistic
missile DEFENSE system in 1999.
The development was planned in two stages.
The first phase was challenging due to the
complex technologies and indigenous mission
systems employed in the mission.
After eight years of development, the first missile
test was conducted in November 2006.
The Prithvi-II missile was successfully intercepted
by the PAD in the endo-atmosphere at an altitude
of 48km.
15
17. INTERCEPTOR
PAD is a two stage missile based on the Prithvi
missile.
Also known as Pradyumna, PAD has a maximum
interception altitude of 80km.
The first stage is liquid fuelled and the second stage
is solid fuelled.
The missile is equipped with manoeuver thrusters for
lateral acceleration.
It can engage the ballistic missiles (300km-2,000km
range) at a speed of Mach 5.
17
18. PRITHVI AIR DEFENSE (PAD)
Type : Exo atmospheric anti ballistic missile
Used by : Indian Army
Manufacturer : DRDO
In use from : 26 November 2006
Engine : 2 stage
Range : 2000 km
Altitude : 8.0 km
Speed : Mach 5
Weight : 1200 kg
Length : 25 feet
Diameter : 1.6 feet
18
19. AKASH AIR DEFENSE (AAD)
Type : surface to air missile
Used by : Indian army
Manufactured by : DRDO
Weight : 750 kg
Length : 5.78 m
Diameter : 14 inch
Engine : Integral rocket motor
Speed : Mach 3
19
20. SWORDFISH RADAR
Swordfish is a long-range tracking radar developed for the
BMD system.
It was derived from the Israeli Green Pine long range radar.
A test conducted in March 2009 validated the long-range
capabilities of the radar.
Swordfish guides the exo-atmospheric interceptor missile PAD
to engage aerial targets at altitudes over 80km.
The radar can detect very small targets within the range of
600km-800km.
DRDO plans to upgrade the range of Swordfish to 1,500 km by
2011.
20
21. MERITS AND DEMERITS
The missile defense system is program that enables the
military to shoot down any missile intended to strike India.
MERITS
-Security
-Will not have to retaliate
-Saves lives
-Saves the environment
-Can prevent attacks by way of intimidation
DEMERITS
-Costly
-Technology could be stolen
-Could start an arms race
21
22. CONCLUSION
Currently Ballistic missiles are among the most expensive of single-use
weapons, up to several million dollars. However, they are cheaper than
human pilots when total training and infrastructure costs are taken into
account.
Guidance System used in Ballistic missile is a complex system which
involves several systems working in random. It is essential that guidance
system is properly designed for accurate interception of targets.
22
23. FUTURE SCOPE FOR MISSILES OF
INDIA
India is trying to prepare many missiles that can
cover a large distance
India is now creating Agni 6 , Brahmos 2 , Astra,
killer K-4, Surya 1 and 2 etc...
Agni 6 has a ability to cover a distance of 8000 to
12000 km
Brahmos 2 can be launched from any platform
Astra missile uses a smokeless propulsion system
Surya 1 and 2 has a capacity to be launched
beneath the sea 1000 km below
23
24. REFERENCES
24
-BALLISTIC MISSILE DEFENSE: CAPABILITIES AND CONSTRAINTS
By ALWYN YOUNG
-William Schneider, Jr., er al., U.S. Strategic Nuclear Policy and Ballistic Missile
Defense: The 1980s and Beyond (Cambridge: Institute for Foreign Policy
Analysis (IFPA), 1980),
-GUIDED MISSILES , by - T V Karthikeyan & A K Kapoor , Scientists Defense
Research &- Development Laboratory, Hyderabad , Defense Scientific
Information & Documentation Centre (DESIDOC) , Ministry of Defense,
DRDO
-THE SECRET OF FLIGHT by JOHAN HOFFMAN, JOHAN JANSSON AND CLAES
JOHNSON
-Aerodynamic Characteristics of G16 Grid Fin Configuration at Subsonic and
Supersonic Speeds by Prashanth H S , Prof. K S Ravi , Dr G B Krishnappa
-PRINCIPLES OF GUIDED MISSILES AND NUCLEAR WEAPONS, by BUREAU OF
NAVAL PERSONNEL OF U.S NAVY ,Prepared and produced by the U. S. Navy
Training Publications Center under direction of the Bureau of Naval
Personnel
25. INTERNET REFERENCES
• http://www.brahmos.com/
• http://en.wikipedia.org/wiki/Trajectory_of_a_projectil
e
• http://en.wikipedia.org/wiki/Mach_number
• http://en.wikipedia.org/wiki/BrahMos-II
• https://www.youtube.com/watch?v=EOGn8_XEMp8
• http://www.army-technology.com/projects/drdo-bmd/
25