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Digital trial presentation: A guide for utilizing airSlate SignNow
In the modern digital landscape, a digital trial presentation is crucial for optimizing document management. airSlate SignNow is an effective platform that streamlines the process of sending and signing documents. This guide will lead you through the procedures to proficiently use airSlate SignNow, improving your document workflows with effectiveness and simplicity.
Steps to create a digital trial presentation with airSlate SignNow
- Launch your web browser and head to the airSlate SignNow homepage.
- Set up a complimentary account or log in to your current account.
- Choose the document you intend to upload for signatures.
- Convert your document into a reusable template if you plan to use it frequently.
- Access the uploaded document and modify it by adding fillable fields or incorporating necessary details.
- Sign the document yourself and allocate signature fields for any recipients.
- Select 'Continue' to adjust your settings and send out the eSignature invitation.
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With transparent pricing, free of hidden costs, and exceptional support available 24/7 for all paid users, you can manage your document processes with assurance. Begin your journey with airSlate SignNow now!
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FAQs
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What is electronic trial presentation and how does it work?
Electronic trial presentation is a digital solution that allows legal professionals to present evidence efficiently during trials. By utilizing software like airSlate SignNow, users can organize, annotate, and display documents in real-time, making the presentation process streamlined and effective.
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How can airSlate SignNow enhance my electronic trial presentation?
airSlate SignNow can signNowly enhance your electronic trial presentation by providing user-friendly tools for eSigning and sharing documents securely. The platform's intuitive interface allows you to gather signatures and manage documents quickly, ensuring that your presentation runs smoothly without delays.
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What are the pricing options for using airSlate SignNow for electronic trial presentation?
airSlate SignNow offers flexible pricing plans tailored to various business needs, including options for solo practitioners and larger firms. Pricing is competitive and often more cost-effective compared to traditional methods, allowing you to allocate resources more effectively for your electronic trial presentation needs.
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What features should I look for in an electronic trial presentation tool?
When choosing an electronic trial presentation tool, consider features such as document management, real-time collaboration, and integration capabilities. airSlate SignNow excels in these areas, ensuring you have the right tools to create impactful presentations and capture necessary signatures efficiently.
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Can I integrate airSlate SignNow with other software for trial presentations?
Yes, airSlate SignNow seamlessly integrates with a variety of third-party applications, enhancing your electronic trial presentation experience. Whether you need to connect with case management software or other productivity tools, SignNow ensures a cohesive workflow that maximizes efficiency.
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What benefits does electronic trial presentation provide over traditional methods?
Electronic trial presentation offers signNow advantages including increased efficiency, reduced paper use, and improved clarity in presenting evidence. By adopting airSlate SignNow for your presentations, you can leverage the speed of electronic document management while ensuring all signed documents are easily accessible and organized.
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Is airSlate SignNow user-friendly for beginners in electronic trial presentation?
Absolutely! airSlate SignNow is designed with user-friendliness in mind, making it accessible even for those new to electronic trial presentation. The platform features guided workflows and helpful tutorials, allowing users to navigate the system with ease and confidence.
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Why hasn't the IAF retired the MiG-21 yet, even though it is extremely old?
I will give a step-wise explanation on why IAF still uses Jaguar and Mig-21 till date even though they were retired long ago by some of the operators around the world.Mig-21 : It was in early 1980s , when Indian Air Force realised that it needed to replace its Mig-21 since they will be signNowing the end of their service life by 1990s which will be a critical fall for Indian Air Force in terms of numbers. Hence the Tejas programme was started which had its own share of problems and was dragged on for many years. Hence what IAF needed was an interim solution. The solution came when it was decided that IAF Mig-21 will be upgraded and its Total Technical Life (TTL) will be extended. The upgrade involved better avionics , armaments , EW suite and more. This helped the Mig-21 to stay for much longer in Indian Air Force. The sole reason why Mig-21 has persisted in IAF till date was due to the fact that Tejas programme faced initial hiccups and thus failed in its objective to replace the older Mig-21 in IAF service.Recently IAF has retired its Mig-21 Type 96 Aircrafts as Tejas programme has started to bore results with Tejas now being actively inducted in Flying Daggers Squadron of IAF. At present IAF uses only Mig-21 Bison/bis aircrafts which will be retired from service by next decade.SEPECAT Jaguar : Jaguars in IAF service are termed as “Deep Penetration Strike Aircraft” ( DPSA ) meant as a Fighter-Bomber to strike deep in the enemy territory. Indian Air Force has serially upgraded its Jaguars with DARIN programmes the latest being DARIN III which adds an AESA radar to the Jaguar. Future replacement for Jaguar can be AMCA which is an Indian 5th Generation Fighter Aircraft currently under development. The extended life which has been breathed in Indian Jaguars through MLUs can well keep Indian Jaguars in air up till next decade.India has been notoriously known for running the aircrafts in its inventory for a much longer time than warranted by its TTL through MLUs like in case of Mig-21 and Jaguars and even Mig-27 and others. Retiring almost 200+ Mig-21 will bring in a critical void which IAF doesn’t want due to its falling numbers. Also Jaguar is India’s lone DPSA so as long as upgrades are available and quick replacements are unavailable it is better to keep them running as these aircrafts serve quite well in their roles.Many nations still use Mig-21 like Romania with some of the famous Mig-21 knockoffs like F-7 used many nations around the world like Bangladesh , Pakistan and Egypt.
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What are some mind blowing facts about the Indian Air Force?
Indian Air Force is an interesting topic to read and know about with many jaw-dropping facts that are particularly unbeknownst to the general populace of one of the largest air forces in the world. Here I will discuss some 11 amazing facts about the Indian Air Force from past and the present which I hope , people would like to know about :A. When IAF inducted 140 Fighters in just 1.5 years !You read that right. After the 1965 Indo-Pak War , Indian Air Force was heavily modernizing its combat fleet and to stop the squadron numbers from diminishing. For this purpose , Sukhoi Su-7 was selected which was the first Sukhoi to serve in Indian Air Force. The procurement were done in a record time which were quite unprecedented as Indian Air Force went on to induct 140 Su-7 in just 1.5 Years which was almost 8 Fighters each month. No.26 Squadron first converted to Su-7 followed by No.101 Squadron and during the induction process , IAF raised some 6 Strike Squadrons which served with distinction during the 1971 Indo-Pak War.B. When an Indian Air Force Mig-25 shot the sun !A Lamborghini Huracan Avio posing in front of the MiG-25 Foxbat at Indian Air Force Museum at Palam AFSOn 24th October 1995 , an IAF Mig-25 ‘Garuda’ flown by Group Captain, Air Marshal Mukerji shot the sun during the total solar eclipse which might sound simple but was quite challenging as the pilots were required to be specialized in navigation and earth’s geometry. An upward looking camera was cued by the pilot towards the sun while another pilot flew the ‘Garuda’ in the exact direction as the earth rotated around the sun. They filmed the magnificent scene from the stratosphere for one and more minutes. Mig-25 was one of the legends of Indian Air Force which served as a Strategic Reconnaissance Aircraft and its presence was kept as a secret for many years as it flew many hostile High-Risk Sorties in enemy airspace clicking high defenition pictures of enemy installments on the ground.C. Indian Air Force ‘Mammoth Formation’ :The largest Indian Air Force Formation flew from Ambala Air Force Station on 1987–88 which was nicknamed the “Mammoth Formation”. These aircrafts consisted of Canberra Bomber Aircraft , Mig-25 “Garuda” , Mig-29 “Baaz” , Ajeet , Mirage 2000 , Mig-27 “Bahadur” , Hawker Hunter , Jaguar “Shamsher” , Mig-23MF and finally the good-old Mig-21.D. When an Indian Air Force Military Transport Aircraft flew without using propellers :Here is an Indian Air Force C-119G Flying Boxcar Military Transport Aircraft somewhere in 1960s. If you closely notice this particular photo , the propellers are idle and the engine has been put off. Now you must be wondering how is this particular aircraft flying.This has been made possible only by its Orpheus Jet pod which has been placed on top of its fuselage. The aircraft is flying solely due to the power supplied by the pod as it was utilized by IAF to shorten the takeoff distance thereby enabling the aircraft of Short Takeoff and Landing Capabilities. IAF also used the J34 turbojet engine for short take-off and IAF’s C-119 also holds the record for being the first aircraft to take-off from the Daulat Beg Oldi with an Orpheus Pod.E. How was Garud Commando Force established :In early stages , PARA SF and MARCOS Officers advised the top brass of Indian Air Force to establish a dedicated Commando Force modeled on the Commando Force of Royal Air Force Regiment. They also advised IAF Officers to procure few numbers of C-130J Strategic Airlifters which can be used to air drop the Commandos in Combat Search and Rescue Missions and also in high-threat missions. Garuds were established on same lines as RAF Regiments and were trained on similar lines as PARA SF and MARCOS though the top brass of Indian Air Force did not pay heed to the second recommendation and no additional C-130J were procured.F. Indian Air Force was the first Air Force to Operate Fighter Jets in Asia :Indian Air Force inducted de Havilland Vampires with the No.7 Squadron “Battle Axes” in 1949 making Indian Air Force the first Air Force in Asia to induct Fighter Jets in its inventory. Vampire served in almost all Fighter Squadrons of Indian Air Force for a span of over 3 decades as a Fighter-Bomber and Reconnaissance Aircraft.G. Indian Air Force was the first Air Force to induct an indigenous Fighter Jet in Asia (outside Soviet Union ) :HF-24 was the first indigenous Fighter Jet which was inducted by an Asian Air Force outside Soviet Union. Conceptualized for Air Staff Requirement (ASR) as a Multi-Role Fighter jet , HF-24 was never realized to its true potential as it was primarily used as a Fighter-Bomber for Ground Attacks. It was inducted by No.10 Daggers Squadron of Indian Air Force in April 1967 making Indian Air Force the first Asian Air Force outside Soviet Union to induct an indigenously made Fighter Jet.H. When an Indian Air Force Mig-21 almost shot down an Indian Helicopter in a Special Operation :During 1971 Indo-Pak War , an Indian Alouette 3 helicopter was flying for a Special Operation in a hostile zone where no supposed friendlies were to be spotted. The helicopter was spotted by an Indian Air Force Mig-21 who decided to engage the helicopter by firing its 57mm Rockets , considering it an enemy asset , which was quickly dodged off by the Alouette Pilot. Realizing his miscalculation , he decided to re-engage the helicopter but that attack was also dodged off by the helicopter pilot. This time the Mig-21 pilot did not wanted to take any risk and closely approached the Helicopter and finally noticed the Indian markings on it. He sighed in relief as he has almost shot down the friendlies.I. Ashok Chakra Roundel for Indian Air Force :After Independence in 1947 , Indian Air Force adopted new markings for its Fighter Aircrafts in June 1948 to distinguish itself from the Royal Indian Air Force Markings. The roundel adopted by Indian Air Force was a ‘Ashok Chakra’ on the Fuselage and the wings. Since these roundels were difficult to paint in correct dimensions , they were soon replaced by Saffron White Green Roundels . Nevertheless these Ashok Chakra Roundels saw service during the 1947–48 Kashmir War when IAF Aircrafts flew with these markings.J. Missiles on Overwing Pylons !Indian Air Force utilized the unusual provision on the SEPECAT Jaguar Aircrafts to mount Air-to-Air Missiles like Matra R.550 Magic on overwing pylons thus freeing the underwing pylons to carry other weapons like Bombs and Missiles. The advantage of this was a quick height gain for Air-to-Air Missiles when they are launched at enemy interceptors at higher altitude who might arrive in the scene to intercept the low flying Jaguar Strike Aircraft. It also helped in additional payload carrying capacity for the Jaguars and is truly an amazing capability with an IAF Fighter still in service after 3 decades.K. First Indian Air Force Fighter with an InfraRed Search and Track System :IRST is a system deployed on Aircrafts to detect and track potential hostiles by scanning their Infrared Signatures. Indian Air Force was one of the first Air Force to deploy an IRST System on it's frontline Fighter Aircraft. IAF's Mig-23MF was fitted with TP-23 IRST at its undernose with the legacy continued by Su-30MKIs and Mig-29UPG at present and by Rafales in future.L. ‘Eye in the Sky' for Indian Air Force :India has acquired 3 EL/W-2090 Airborne Early Warning and Control Radar System from Israel to serve as the ‘Eye in the Sky' for Indian Air Force mounted on A-50EI Platform . This Radar System was adjudged as the most advanced AEW&C by Federation of American Scientists in 1999 and 2008 Articles. It can detect a fighter sized target at a distance of 500 kilometres relying on its L-Band AESA radar. It can also carry out L-band radar, then adds electronic and communications intelligence gathering (ELINT and COMINT ).Hope my answer serves the purpose =)References :Sukhoi-7 BMK - A whale of a fighterhttps://www.livefistdefence.com/...This Stunning Old Photo Of An IAF ‘Mammoth Formation’ Just Showed UpEL/W-2090 - WikipediaStory behind missiles over the wings (25 Photos)https://www.secretprojects.co.uk...Indian Air Force Gallery :: De Havilland Vampire F3 and FB52 (Single Seaters) - Bharat RakshakRoundels (Independence and Chakra)HAL HF-24 Marut - Wikipedia
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Is it true that the United States military is the most powerful military in the world?
Very much true.The US military has massive power projection, more than any country in the history of man. The US has 11 (CATOBAR/STOBAR) Aircraft Carriers, while the next country has 1 which is, China, Russia, India, UK, and France. Also, the US Carriers are not just regular carriers, they are known as Super Carriers. Which is a term coined by the public to say that these carriers are so large that they exceed the definition of an Aircraft Carrier. Also, the US carriers were designed in the 70’s and countries are now just starting to make designs that could compete with the American Carriers. However, the US just redesigned the carrier and is coming out with the new Gerald R. Ford Class Carrier, which is supposed to be years possibly decades ahead of any other countries design. If you include Helicopter Carriers, and Amphibious Assault ships, that number jumps up to 20, soon to be 22. Then the next highest is tied between Japan and France with 4. My favorite part about the US having so many Aicraft Carriers is that if we divided them up between the major oceans, we could have 4 in each ocean… Crazy. The US carriers are also nuclear powered, they are the only carriers to be nuclear powered besides the French R91 Charles de Gaulle.Note the types of planes on the US Carriers. If you look at the USS Gerald R. Ford, it is fielding 5 different aircraft. 4 planes and 1 helicopter. We will look at the planes. Woden note, the USN has the 2nd largest Air Force in the world, right behind the USAF.First plane- McDonnell Douglas F/A-18 Hornet/Super Hornet: The plane is one of the most decorated planes, with thousands of successful missions, while requiring 3x less maintenance and failures than its counterparts. The plane has electronic warfare capabilities, air to air, and air to ground capabilities. Also, has spy and early warning capabilities. It was one of the first aircraft to heavily use multifunction displays, which at the switch of a button allow a pilot to perform either fighter or attack roles or both. The airframe is complex yet so simple, that a 4 man team can remove and install a new F404 engine in 40 minutes. Was also one of the very first 4th generation fighter on an aircraft carrier.Second plane- Northrop Grumman X-47B: This guy will be the very first and only Carrier based Drone. Northrop Grumman intends to develop the prototype X-47B into a battlefield-ready aircraft, the Unmanned Carrier-Launched Airborne Surveillance and Strike (UCLASS) system, which will enter service in the 2020s. So it’ll have strike options and surveillance capabilities.Third plane- Northrop Grumman E-2 Hawkeye: Many countries have AWAC systems or Airborne early warning and control. But only the United States have a Carrier based AWAC system. With the creation of this system, carriers that are hundreds of miles away from the nearest AWAC system, this plane gives the ability for a carrier strike group to potentially detect fifth-generation fighters like the Russian Sukhoi Su-57 and the Chinese Chengdu J-20 and Shenyang J-31 farther out. Also, gives the ability to guide fleet weapons, such as AIM-120 AMRAAM and SM-6 missiles, onto targets beyond a launch platform's detection range or capabilities.Fourth plane- Lockheed Martin F-35C Lightning II: This plane is the first and only carrier based 5th Generation Stealth fighter. The plane is meant as an air superiority fighter and a plane capable of ground support. It also has a very low, almost undetectable, cross section and radar signature. Besides radar stealth measures, the F-35 incorporates infrared signature and visual signature reduction measures. With the addition of a 5th generation stealth fighter, this gives the US military and Navy, the opportunity to do more damage and to have true air superiority over all other aircraft carrier based planes and land based planes. The US, in the event of a war, can now bring 5th gen fighters to the battle without the need of the Air Force against other 4th gen fighters, or possibly the few Chinese or Russian 5th gen fighters.Furthermore, the US have some of the best destroyers on the planet. With the highly acclaimed Arleigh-Burke Class Destroyer, and the brand new, low production Zumwalt Class Destroyer. The US has the most destroyers in the world with about double the next country, with another 4 undergoing sea trials and we are currently building 5 more and have awarded contracts for 5 more. By 2024 the US is expected to have 79 destroyers in service.Zumwalt Destroyer- The Zumwalt class warships are the largest destroyer ever built. The USS Zumwalt has unusual hull design optimized for wave piercing. There is a composite deckhouse. Angular shape minimizes its radar signature. The ship has hidden radar and sensors. The despite its size the USS Zumwalt has a radar signature of a fishing boat. Also it has reduced sound and infrared signature what makes this ship harder to detect. The ship is the First american surface warship to integrate electronic propulsion, it generates enough power to light up a small city. Sound levels of the Zumwalt are comparable with Los Angeles class submarines.Arleigh-Burke Destroyer- These guided missile destroyers entered service with the US Navy in 1991 were the first large US Navy vessel designed to incorporate stealth shaping techniques to reduce radar cross-section. Also these are one of the biggest destroyers in the world that incorporate highly advanced weaponry and systems. Hull profile of the Arleight Burke class signNowly improves seakeeping, permitting high speeds to be maintained in difficult sea states. The AN/SPY-1D phased array radar incorporates signNow advances in the detection capabilities of the AEGIS weapons system, particularly in its resistance to enemy electronic countermeasures. Missile are stored in vertical launch systems, that can also house smaller Evolved Sea Sparrow (ESSM) missiles, Tomahawk land attack cruise missiles, ASROC anti-submarine missiles. For point defense the ships are equipped with two Phalanx Close-In Weapon Systems (CIWS). Also there are 324 mm launchers for Mk.46 or Mk.50 torpedoes.Daily dose of freedom right here.Obviously, we can’t forget about the immaculate US submarine fleet. The US has some of the most advanced and quietest submarines. All of them use nuclear propulsion for extended range and stealth capabilities. The US has the…Ohio class (18 in commission) – 14 ballistic missile submarines (SSBNs), 4 guided missile submarines (SSGNs)- The U.S. Ohio-class submarines, of which 14 are Trident II SSBN, each capable of carrying 24 SLBMs. The first four which were all equipped with the older Trident I missiles have been converted to SSGN's each capable of carrying 154 Tomahawk guided missiles and have been further equipped to support Special OperationsSeawolf class (3 in commission) – attack submarines- The Seawolf class boats were intended to seek and destroy the latest Soviet ballistic missile submarines, such as the Typhoon class and attack submarines such as the Akula class. Seawolf class submarines are arguably the quietest submarines in the world ever constructed. It is exceptionally quiet even at high speeds. Most submarines need to keep their speed down to as little as 5 knots to avoid detection by passive sonar arrays, while the Seawolf class are credited with being able to cruise at 20 kots and still be impossible to locate. A Seawolf at 25 knots makes less noise than an older Los Angeles class submarine tied up alongside the pier. And these came out in 1989.Virginia class (11 in commission, 5 under construction, 2 on order) – fast attack submarines- The Virginia class submarines incorporate newly designed anechoic coating, isolated deck structures and new design of propulsor to achieve low acoustic signature. It is claimed that noise level of the Virginia is equal to that of the Seawolf class. The Virginia class submarines are fitted with 12 vertical launch system (VLS) tubes. These are used to launched Tomahawk land attack cruise missiles with a range of 1 700 km. Also there are four 533-mm torpedo tubes. These are used to fire a total of 26 Mk.48 heavyweight torpedoes and Sub-Harpoon anti-ship missiles. It is the first US submarine to employ a built-in Navy SEAL staging area allowing a team of 9 men to enter and leave the submarine.(Improved) Los Angeles class (34 in commission, 2 in reserve) – attack submarines- The Improved submarines are much quieter. It is described that improved Los Angeles class boats are 7 times quieter than the original Los Angeles class boats. The class features a very potent weapon array, including Mk.48 torpedoes, Sub-Harpoon anti-ship missiles and Tomahawk land attack cruise missiles. Tomahawk missiles can be launched from torpedo tubes of from dedicated vertical launching systems. These boats can operate under ice where the Russian ballistic missile submarines tend to hide.Surfacing of a US Submarine.Let’s move onto the air. While the USN has a quite capable Air Force. But that is dwarfed by the sheer magnitude and strength of the United States Air Force. The Air Force articulates its core missions as air and space superiority, global integrated ISR, rapid global mobility, global strike, and command and control. The USAF flys a multitude of different planes and helicopters. The USAF is the largest Air Force in the world, here is the list of what America flys. Most of these are at the cutting edge of innovation, with two of them being 5th generation stealth fighters. That’s really really good because no other country has an active 5th gen while the US has 2. The USAF also has the largest bomber, tanker, fighter, and transport fleets in the world. The USAF has so many staging areas around the world, that the US can have bombers or any other planes on station, anywhere around the world in a matter of hours.Attack: A-10, AC-130, MQ-1, MQ-9Bomber: B-1B, B-2, B-52HElectronic warfare: E-3, E-8, EC-130Fighter: F-15C, F-15E, F-16, F-22 (5th gen), F-35A (5th gen)Helicopter: HH-60, UH-1NReconnaissance: MC-12, RC-135, RQ-4, RQ-170, U-2, U-28Trainer: T-1, T-6, T-38, T-41, T-51, T-53, TG-16Transport: C-5, C-12, C-17, C-21, C-32, C-37, C-130, C-40, CV-22, VC-25Tanker: KC-10, KC-135Let’s look at the two of my favorite ones and the most technologically advanced planes in the world.F-22 RaptorThe F-22 Raptor air superiority fighter is almost invisible to radars. This aircraft carries a powerful array of weaponry. It is the most advanced and most expensive production fighter aircraft to date. Many of sensors and avionics of this plane remain classified. Engines of the raptor allow the aircraft to supercruise over long ranges, while thrust-vectoring nozzles, combined with a triplex fly-by-wire flight control system, make it exceptionally maneuverable. The highly integrated avionics systems also include a data-link, inertial navigation system with embedded GPS for high-accuracy navigation, and advanced electronic warfare, warning and countermeasures systems. Two central computers manage the automatic switching of the sensors between completely passive and wholly active operation, according to the tactical situation. Artificial intelligence algorithms fuse data from the sensors and present only relevant information to the pilot to reduce workload while at the same time improving tactical awareness. The datalink allows tactical information to be shared with other F-22s. The tech is so special that other countries, not even NATO allies are given the chance to procure the plane.B-2 SpiritThe B-2A Spirit is the silver bullet of US policy, reserved for use against targets of the highest priority. The B-2's stealth characteristics enable the undetected penetration of sophisticated anti-aircraft defenses and to attack even heavily defended targets. This stealth comes from a combination of reduced acoustic, infrared, visual and radar signatures (multi-spectral camouflage) to evade the various detection systems that could be used to detect and be used to direct attacks against an aircraft. Composites are extensively used to provide a radar-absorbent honeycomb structure; the bomber has a minimal IR signature, does not contrail and uses its shielded APQ-181 radar only momentarily to identify a target just before attacking. The onboard DMS is capable of automatically assessing the detection capabilities of identified threats and indicated targets. The DMS will be upgraded by 2021 to detect radar emissions from air defenses to allow changes to the auto-router's mission planning information while in-flight so it can receive new data quickly to plan a route that minimizes exposure to dangers. Also, most of the B-2s are stationed in Missouri, and they are capable of bombing any target in the world despite being in the heart of America.Now for the US ARMYThe US army it self is massive in numbers, coming in at 1.01 million personnel, it self is one of the biggest standing armies in the world, and that's just one branch of the US military. Also, in the US military, it is the largest branch out of them all surpassing any other branch by almost 600,000 personnel. They provide the bulk of security for the US's foreign interests. The mission of the U.S. Army is to fight and win our Nation's wars, by providing prompt, sustained, land dominance, across the full range of military operations and the spectrum of conflict, in support of combatant commanders. Which is mainly air domination and land domination. They mainly engage is conventional warfare, and asymmetrical warfare. The US Army's main responsibilities is preserving the peace and security and providing for the defense of the United States, the Commonwealths and possessions and any areas occupied by the United States, Supporting the national policies, Implementing the national objectives, Overcoming any nations responsible for aggressive acts that imperil the peace and security of the United States. The US Army is also home to some of the most dangerous, prestigious and hardest working special forces teams in the world such as the frontline special force, the Rangers, we also have the green berets and the iconic 1st Special Forces Operational Detachment-Delta (Airborne) also known as Delta Force. The US army is thought to be one of the most battle tested and battle proven militaries in the world. With the mobility of the USAF an army QRF can be anywhere on earth in less than 24 hours. The US ARMY uses the M1A2 Abrams tank. One of the most badass, heaviest, fastest, and battle hardened tanks in the world.This tank has incredible technology and armor. Also it has seen combat. It is one of the most feared MBTs. The M1A2 offers signNow protection against all well-known anti-tank weapons. This main battle tank uses advanced armor, reinforced with depleted uranium layers. The M1A2 has signNow level of protection against all known anti-tank weapons. It can also employ counter-IED equipment. The tank is armed with the same 120-mm M256 smoothbore gun as its predecessor. Range of effective fire is in excess of 4 km. This main battle tank is powered by a Honeywell AGT1500 gas turbine engine, developing 1 500 hp. The tank is one of the fastest in the world, clocking in (with no governor) at 60 mph while being THE heaviest tank in the world. As of April of 2018, the US has no combat losses with the Abrams, the Abrams has only been lost due to friendly fire, never to enemy fire.I don’t think I need to explain the marines. Just know that they use the same tech as the Army (with some exceptions) but they are also the main invasion force for the US. And they are badass.The US military signNow is massive with the Aircraft carriers and the 700+ military bases around the world. The US is truly the most powerful military in the world. The fact that they can have a men anywhere in the world in less than 24 hours and being able to bomb any place on earth, just proves how powerful the US military is.
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Which one is better, the Dassault Rafale or the Sukhoi 30MKi?
It is a much heated up question as when India placed an order of 36 Rafales many started complaining that Rafale is too expensive and India can buy more ‘capable’ Su-30 MKIs to beef up its fire power. Here is a rough comparison between Su-30 MKI and Rafale from RBTH Website :-The Sukhoi Su-30MKI is a multirole combat fighter aircraft jointly developed by the Sukhoi Design Bureau and Hindustan Aeronautics Limited (HAL) for the Indian Air Force (IAF). Based on the Su-30 fighter aircraft, Su-30MKI is equipped with thrust vectoring control and canards.While Dassault Rafale is an omnirole aircraft by design able to execute many missions like :Air-defense / air-superiority,Anti-Access/Area Denial,Reconnaissance,Close air support,Dynamic Targeting,Air-to-ground precision strike / interdiction,Anti-ship attacks,Nuclear deterrence,Buddy-buddy refueling.Rafale also has exhibited a remarkable survivability rate during the latest French Air Force and Navy operations, thanks to an optimized airframe and to a wide range of smart and discrete sensors.Comparison :——————————Radar :-Su-30 MKI is fitted withNIIP NO11M Bars (Panther) which is a powerful integrated PESAradar. The N011M is a digital multi-mode dual frequency band radar. The N011M can function in air-to-air and air-to-land/sea mode simultaneously while being tied into a high-precision laser-inertial or GPS navigation system. It is equipped with a modern digital weapons control system as well as anti-jamming features. N011M has a 400 km search range and a maximum 200 km tracking range, and 60 km in the rear hemisphere. The radar can track 15 air targets and engage 4 simultaneously including cruise missiles and motionless helicopters. The Su-30MKI can function as a mini-AWACS as a director or command post for other aircraft. The target co-ordinates can be transferred automatically to at least four other aircraft. The radar can detect ground targets such as tanks at 40–50 km.Dassault Rafale is fitted with a RBE2-AA radar system which is an active electronically scanned array (AESA) radar system derived from the Rafale’s RBE2 radar. It replaces the mechanically steered array antenna by electronically steering exerted by up to several thousand of transmit-receive modules which enable maximum performance and versatility as well as enhanced reliability. The radar is using about 1000 GaAs T/R modules and is reported to deliver a greater detection range of 200 km, improved reliability and reduced maintenance demands over the preceding radar. Active electronic scanning makes it possible to switch radar modes quickly, thereby enabling operational functions to run simultaneously.Su-30 MKI PESA Radar is far less powerful than Rafale AESA Radar. Su-30MKI will receive an AESA Radar only after Super Sukhoi Upgrade where it will be fitted with Zhuk AESA Radar.2. Electronic Warfare Suite :Su-30MKI has electronic counter-measure systems. The RWR system is of Indian design, developed by India's DRDO, called Tarang, (Wave in English). It has direction finding capability and is known to have a programmable threat library. Elta EL/M-8222 a self-protection jammer developed by Israel Aircraft Industries is the MKI's standard EW pod, which the Israeli Air Force uses on its F-15s. The ELTA El/M-8222 Self Protection Pod is a power-managed jammer, air-cooled system with an ESM receiver integrated into the pod. The pod contains an antenna on the forward and aft ends, which receive the hostile RF signal and after processing deliver the appropriate response.While Rafale has ground breaking EW Suite in form of SPECTRA system which carries out reliable long-range detection, identification and localization of threats, allowing the pilot to instantly select the most effective defensive measures based on combinations of radar jamming, infrared or radar decoying and evasive maneuvers. The angular localization performance of the SPECTRA sensors makes it possible to accurately locate ground threats in order to avoid them, or to target them for destruction with precision guided munitions. Additionally, SPECTRA fulfils new functions in a combat aircraft, while signNowly participating in the determination of the aircraft's tactical situation, and providing the crew with operational advantage by performing accurate threat location. By virtue of its fully passive situational awareness capability, SPECTRA are a major contributor to the low observability concept of Rafale. SPECTRA gives Rafale firing solution with 1* precision at 200 km.The outstanding capability of SPECTRA regarding airborne threat localization is one of the keys of the RAFALE’s superior situational awareness. Also instrumental in SPECTRA’s performance is a threat library that can be easily defined, integrated and updated on short notice by users in their own country, and in full autonomy. SPECTRA now include a new generation missile warning system that offers increased detection performance against the latest threats.In this aspect also Rafale edges out Su-30 MKI. This EW Suite helps Rafale with an excellent survivability in hostile airspace which Su-30 MKI can’t offer.3. Dogfighting Skills :Su-30 MKI remains one of the most maneuverable fighter till now with 3D Thrust Vectors and Canards which provides it extra lift and more maneuverability. Rafale has also its own distinctive advantage in dogfights as it is a delta wing fighter can take sharp turns. According to Rafale vs SU-30MKI the dogfighting rating for Rafale and Su-30 MKI are 9.3/10 and 9.7/10 respectively. Though MKI margins a Rafale in this factor , the wing loading and thrust/weight ratios for Su-30 MKI are 401 kg/sq m and 1.00:1 at 56% fuel, respectively. For the Rafale, the figures are 306 kg/sq m and around 1.23:1. In fact, at a full fuel and weapon load, the Rafale still has a 0.988:1 thrust/weight ratio – almost the same ratio as the one achieved by the Su-30MKI at a 56% weapons load. This means that a fully-loaded Rafale is as maneuverable as a half-fully-loaded Su-30MKI, while a half-fully-loaded Rafale can run circles around a Flanker.In this aspect I will give an edge to Su-30 MKI though Rafale can run circles around a Flanker better enough.4. Stealth :The minimal Radar Cross Section of Rafale, according to Dassault engineer (1/10~1/20 of Mirage-2000's frontal RCS), should be 0.05 to 0.1 m2 class.Rafale makes extensive use of radar-absorbent material (RAM) in the form of paints and other materials. RAM forms a saw-toothed pattern on the wing and canard trailing edges, for instance. The aircraft is designed to, so that its untreated radar signature is concentrated in a few strong "spikes," which are then suppressed by the selective use of RAM.75% of Rafale surface structure and 30% of its mass are made of composites. Besides, the high amount of composites and RAM materials, ducted air intakes, Rafale also has a sawtooth design feature all over the airframe and even in the air intakes. These sawtooth are made of RAM materials and meant to scatter and absorb radar waves. IRST surface of rafale is covered in gold shield which reflects very less radar energy and thus has stealth. The internals of the cockpit are RCS shaped as well as the canopy containing gold and RAM coat on the mounts which reflects very less radar reflection.Su-30 MKI due to its larger size lets out a huge RCS of 10 meter square ( unarmed ) and 20 meter square ( armed ). Su-30 MKI also does not make use of RAM or RCS Reduction measures as Rafale.So in a BVR Combat a Rafale will have an advantage of first look-first shot as it will detect a Su-30 MKI first before a Su-30 MKI will detect it.5. Propulsion :The Rafale is fitted with two Snecma M88 engines, each capable of providing up to 50 kN (11,250 lbf) of dry thrust and 75 kN (16,900 lbf) with afterburners. The engines feature several advances, including a non-polluting combustion chamber, single-crystal turbine blades, powder metallurgy disks, and technology to reduce radar and IR signatures. The M88 enables the Rafale to supercruise while carrying four missiles and one drop tank.M88 Engines———————The Su-30MKI is powered by two Lyulka-Saturn AL-31FP turbofans, each rated at 12,500 kgf (27,550 lbf) of full after-burning thrust, which enable speeds of up to Mach 2 in horizontal flight and a rate of climb of 230 m/s. The mean time between overhaul is reportedly 1,000 hours with a full-life span of 3,000 hours; the titanium nozzle has a mean time between overhaul of 500 hours. In early 2015, Defence Minister Manohar Parrikar stated before Parliament that the AL-31FP had suffered numerous failures, between the end of 2012 and early 2015, a total of 69 Su-30MKI engine-related failures had occurred; commons causes were bearing failures due to metal fatigue and low oil pressure, in response several engine modifications were made to improve lubrication, as well as the use of higher quality oil and adjustments to the fitting of bearings.AL-31FP Engines——————-AL-31FP engines provide a greater thrust than Rafale which is not a sign of inferiority but because Su-30 MKI is a Heavy Combat Aircraft rather than Rafale which is a medium combat aircraft. The Su-30MKI’s rate of climb (300 m/s) is inferior to that of the Rafale (305 m/sec) which gives Rafale an edge over Su-30.6. Technology and Avionics :In terms of technology and avionics Rafale is marked 8.5/10 and 8.4/10 respectively while Su-30 MKI is marked 8.2/10 in both which is a pretty edge for Rafale as compared to Sukhoi Su-30 MKI as per ratings by Rafale vs SU-30MKI7. Beyond Visual Range Combat :The primary BVRAAM employed by Rafale is MBDA Meteor, presently the most advanced BVRAAM at present. Meteor is the next generation of Beyond Visual Range Air-to-Air Missile (BVRAAM) system designed to revolutionize air-to-air combat in the 21st Century. Guided by an advanced active radar seeker, Meteor provides all weather capability to engage a wide variety of targets from agile fast jets to small Unmanned Aerial Vehicles and cruise missiles. It is designed to meet the most stringent of requirements and is capable of operating in the most severe of clutter and countermeasure environments.The weapon is also equipped with data link communication. Aimed at meeting the needs of a network centric environment, Meteor can be operated using third party data, enabling the Meteor user – the pilot – to have the most flexible weapon system. Using the data link means that target information updates while the missile is already streaking towards its quarry. Re-targeting data can even come from a third party—i.e., from a platform other than the launch aircraft. The datalink is capable of transmitting information such as kinematic status. It also notifies target acquisition by the seeker.The Meteor is installed with an active radar target seeker, offering high reliability in detection, tracking and classification of targets. The missile also integrates inertial measurement system (IMS). It uses AD4A (Active Anti-Air Seeker) family of seekers.Meteor’s stunning performance is achieved through its unique ramjet propulsion system – solid fuel, variable flow, ducted rocket. This ‘ramjet’ motor provides the missile with thrust all the way to target intercept, providing the largest No-Escape Zone of any air-to-air missile.The weapon’s electronics and propulsion control unit (ECPU) calculates the appropriate cruise speed depending on the launch condition and the target’s altitude, and adjusts the ramjet’s air intake and duct covers accordingly. The distance that the Meteor has to fly is unknown as yet–the target may be maneuvering, for instance. The ECPU monitors that distance and the missile’s remaining fuel. When the range to go indicates that the missile won’t run out of fuel if it accelerates, the throttle is fully opened to maximize the intercept speed. If the target is at maximum range, there will be little if any acceleration.The missile has a range in excess of 100km. Meteor is estimated to have a range of 250-300 km with ballistic flight path. It is designed for a speed greater than Mach 4. The missile has a large no escape zone (almost 60 Km). The missile trajectory is controlled aerodynamically using four rear-mounted fins. Meteor's control principles are intended to allow high turn rates while maintaining intake and propulsion performance.The missile, being designed as a complete unit, requires no assembly and maintenance immediately before loading. This arrangement reduces its overall life logistic support cost.Meteor can be launched as a stealth missile. It is equipped with enhanced kinematics features. It is capable of striking different types of targets simultaneously in almost any weather. To ensure total target destruction, the missile is equipped with both impact and proximity fuses and a fragmentation warhead that detonates on impact or at the optimum point of intercept to maximize lethality.Su-30 MKI is equipped with Vympel NPO R-77 BVRAAM which is a Russian medium range, active radar homing air-to-air missile system. The R-77 has the ability to engage multiple airborne threats simultaneously thanks to its fire and forget capability. There are other versions fitted with infrared and passive radar seekers instead of active radar homing. Future plans call for increasing the missile range well beyond 150 kilometers. Currently it has 80Km range. It has speed of 4 mach and can operate at altitudes as 25000 m high.The R-77 has been designed with innovative control surfaces which are one of the keys of its impressive performance. Once launched, the R-77 depends on an inertial navigation system with optional in-flight target position updates from the aircraft sensors. When the R-77 missile is at a distance of about 20 km its radar homing head activates leading the missile to its target. The R-77's multi-purpose target engagement capabilities and resistance against countermeasures are among the best in the world. It is launched from AKU-170E launch unit aboard the aircraft.The R-77 carries a 22.5kg multi-shaped charge rod type warhead. An inertial/radio-corrected navigation system guides the missile during the initial flight phase, while a multi-function doppler-monopulse active radar seeker is employed in the terminal phase.R77 uses large strakes for lift enhancement, and unique lattice tail controls. The R-77P uses the 9B-1032 X-band anti-radiation seeker. A rocket-ramjet variant of the missile has been in development since the 1990s, as a counter to the EU Meteor. Designated the RVV-AE-PD, and often labeled the R-77M.R-77 BVRAAM—————Su-30 MKI will aslo be fitted with Astra BVRAAM which is designed to be capable of engaging targets at varying range and altitudes allowing for engagement of both short-range targets (up to 20 km) and long-range targets (up to 80 km).It uses smokeless propulsion system to evade enemy radars and has the capacity to engage in multi-target scenario. Astra can signNow up to 110 km when fired from an altitude of 15 km, 44 km when launched from an altitude of 8 km and 21 km when fired from sea level. A smokelessThe highly agile, accurate and reliable missile features high single-shot kill probability (SSKP) and is capable of operating under all weather conditions. It also has the capacity to engage in multi-target scenario. The ECCM (electronic counter-counter measure) features of the missile make it able to overcome almost any kind of jamming.Su-30 MKI launching an Astra BVRAAM—————Su-30 MKI also has a 200 km ranged- K-100 Novator Missile which is used to target AWACS aircraft and oil tankers ( not fighter jets ).In BVR Combat aspect due to Meteor we can assume that Rafale can edge out Su-30 MKI although Su-30 MKI has more diverse BVRAAM in form of R-77 and Astra as well as K-100. According to Rafale vs SU-30MKI Rafale has 85% rating in BVR Tech. while Su-30 MKI has 87% rating.8. Within Visual Range Combat :In WVR Combat Rafale has MBDA MICA and Magic II AAM while Su-30 MKI has AA-11 Archer and AA-8 Aphid. Rafale vs SU-30MKI gives Rafale a dogfighting rating of 76 % while Su-30 MKI has an edge with 94 %. Rafale has the biggest gun on the market (ex aequo with Sukhoi aircraft): a hefty 30mm GIAT gun firing incendiary rounds.Based on all these analysis I will comment that Rafale is actually ‘better’ than Su-30 MKI. Su-30 MKI has 12 hardpoints (2 × wing-tip AAM launch rails, 6 × pylons under-wing, 2 × pylon under-engine nacelles, and 2 × pylons in tandem in the "arch" between the engines. It can be increased to 14 using multiple ejector racks.) with a capacity of up to 8,130 kg . Rafale on the other hand has 14 hard points (13 on the RAFALE M). Five of them are capable of drop tanks and heavy ordnance. Total external load capacity is more than nine tonnes (20,000 lbs.).To prevail in air combat, one must:Be capable of defending one’s own airspace anytime, on call, at a moment’s notice if need be;Be harder to detect than the enemy and detect him faster so that he’ll be shot down unaware of his attacker (as 80% of all fighters shot down throughout aviation history were);If possible, be more numerous than the enemy;Provide one’s own pilots with more flight hours than the enemy to practice flying skills;Be more maneuverable than the enemy;Be more capable of transitioning from one maneuver to another than the enemy.Some of the objectives are filled by Rafale while some others are filled by Su-30 MKI.Rafale's awesome speciality is it's faster 5th gen system core processor which integrates data & information at much faster rate than it's Russian-Indian competitor.Su-30 MKI can employ many varieties of anti-ship missiles like3 × Kh-59MK4 × Kh-356 × Kh-31AWhile Rafale on other hand has only MBDA AM 39-Exocet anti-ship missile. Su-30 MKI also employs varieties of Anti-Radiation Missiles like KH-31P and DRDO Anti-Radiation Missile.If you look from Indian case Russia has agreed to fit KH-31P with Indian Rafales.Rafales also have "Hammer" which is a Precision-Guided Munitions developed by Sagem Défense Sécurité. AASM comprises a frontal guidance kit and a rear-mounted range extension kit matched to a dumb bomb. The weapon is modular because it can integrate different types of guidance units and different types of bombs. The basic version features a 250-kilogram (550 lb) bomb plus hybrid inertial navigation system (INS) / Global Positioning System (GPS) guidance. Other variants add infrared homing or laser guidance to increase accuracy; there are also versions with 125-kilogram (276 lb), 500-kilogram (1,100 lb) or 1,000-kilogram (2,200 lb) bomb bodies. It has range capability of more than 32nm from high altitude, or 8nm from low level. Launches can also be made from an off-axis angle of up to 90°, while up to six weapons can be fired against individual targets in a single pass and with just one trigger press."Meanwhile the russian KAB 500 /1000/ have inferior CEP (7m) & Range compare to Hammer.Rafale also has MBDA Storm Shadow/SCALP-EG Cruise Missile which is is based on the earlier MBDA Apache anti-runway missile, and differs in that it carries a warhead, rather than submunitions. Range 300+nm (560+km) Lo-Lo profile Speed 1,000 km/h Mach 0.8 Guidance Inertial, GPS and TERPROM. Terminal guidance using imaging infrared DSMAC.Su-30 MKI and Rafale both will use BrahMos-NG in IAF Service.Rafale with a twin BrahMos-NG ConfigurationSu-30 MKI OLS-30 laser-optical Infra-red search and track includes a day and night FLIR capability and is used in conjunction with the helmet mounted sighting system. The OLS-30 is a combined IRST/LR device using a cooled, broad waveband sensor. Detection range is up to 90 km, while the laser ranger is effective to 3.5 km. While Rafale’s FSO provides better range than OLS-30 at 100 kilometers.Combat-Proven :From 2006 to 2011, French Air Force and Navy Rafale fighters were engaged in countless combat missions in Afghanistan where they demonstrated a very high proficiency and a tangible military value. The AASM/HAMMER precision-guided modular air-to-surface armament, Paveway laser-guided bombs, and the 30 mm cannon were employed on many occasions, scoring direct hits with remarkable precision. In 2011, French Air Force and French Navy RAFALE fighters were successfully engaged in coalition operations over Libya. They were the first fighters to operate over Benghazi and Tripoli, and they carried out the whole spectrum of missions the Rafale was designed for: air-superiority, precision strikes with Hammers and laser-guided bombs, deep strike with SCALP cruise missiles, Intelligence, Surveillance, Tactical Acquisition and Reconnaissance (ISTAR) and Strike Coordination And Reconnaissance (SCAR). During the Libyan conflict, hundreds of targets – tanks, armored vehicles, artillery emplacements, storage dumps, command centres and air-defense systems (SA-3 Goa and SA-8 Gecko fixed and mobile SAM launchers) – were hit with devastating accuracy by Rafale aircrews.French Air Force Rafales have taken a leading role in Mali, helping destroy enemy infrastructure and support friendly troops in contact. Four RAFALES undertook the longest raid in French Air Force history, taking off from Saint-Dizier, in eastern France, and landing in N’Djamena, in Chad, after hitting 21 targets and spending no less than 9 h 35 min airborne. The French Air Force quickly set up a forward operating base in Chad, and the RAFALE detachment later grew to eight aircraft. This represented the first time the RAFALE had operated from a FOB in Africa.While on other hand Su-30 MKI has never seen real combat and is not combat-proven. Well this is not a criteria to judge an aircraft =)So in my view Rafale is better than Su-30 MKI whereas Su-30 MKI edges Rafale in some factors like dogfighting and WVR Combat. Also Su-30 MKI is cheaper than Rafales. Seeing the excellent record of Mirage 2000 in IAF Service I can assume that Rafale coupled with Su-30 MKIs and India’s own Tejas can put up IAF Supremacy for upto 2045 till 5th generation fighters come into scene.Fact is I love both the planes =)Hope my answer serves the purpose =)References :Sukhoi Su-30MKI - WikipediaDassault Rafale - WikipediaRafale vs SU-30MKIGoogle Images
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Fighter Aircraft: How does Dassault Rafale compare to Eurofighter Typhoon?
Rafale vs Typhoon: The facts!Thrust to weight ratio:Maximum:Rafale = 1.50Typhoon = 1.76Nominal:Rafale = 1.03Typhoon = 1.21Minimum:Rafale = 0.62Typhoon = 0.82RafaleEmpty weight = 10220 kgFuel capacity (internal) = 4680 kgMinimum weight = 10220 kgNominal weight (without external loads) = 14900 kgMaximum weight = 24500 kgMaximum Thrust = 2*75 kNMaximum Thrust-to-weight = 2*75/(9.81*10.220) = 1.50Nominal Thrust-to-weight = 2*75/(9.81*14.900) = 1.03Minimum Thrust-to-weight = 2*75/(9.81*24.500) = 0.62TyphoonMinimum weight = 11000 kgFuel capacity (internal) = 4.996 kgNominal weight = 15996 kgMaximum weight = 23500 kgMaximum Thrust = 2*95 kN (war setting)Maximum Thrust-to-weight = 2*95/(9.81*11.000) = 1.76Nominal Thrust-to-weight = 2*95/(9.81*15.996) = 1.21Minimum Thrust-to-weight = 2*95/(9.81*23.500) = 0.82Wing loading:Minimum:Rafale = 224 kg/m²Typhoon = 215 kg/m²Nominal:Rafale = 326 kg/m²Typhoon = 312 kg/m²Maximum:Rafale = 536 kg/m²Typhoon = 459 kg/m²RafaleWing area = 45,70 m²Nominal weight = 14900 kgMinimum wing loading = 10220/45.70 kg/m² = 224 kg/m²Nominal wing loading = 14900/45.70 kg/m² = 326 kg/m²Maximum wing loading = 24500/45.70 kg/m² = 536 kg/m²Typhoonwing area = 51.2 m² (with extended leading edges)Minimum wing loading = 11000/51.2 kg/m² = 215 kg/m²Nominal wing loading = 15996/51.2 kg/m² = 312.5 kg/m²Maximum wing loading = 23500/51.2 kg/m² = 459 kg/m²Service Ceiling:Rafale = 15.240 kmTyphoon = 16.765 kmRate of Climb:Rafale = 250 m/sTyphoon = 315 m/sFerry Range:Rafale = 3750 kmTyphoon = 3790 kmMaximum payload:Rafale = 9600 kgTyphoon = 7500 kgMinimum Speed: Rafale = 148 km/hTyphoon = 203 km/hMaximum Speed:Rafale = Mach 1.97Typhoon = Mach 2.35The Rafale has two advantages over the typhoon. It has a lower minimum speed, which makes it more suitable for landings on aircraft carriers. It can carrier a higher weapons load, which makes it more suitable for ground attack missions. The respective range of both aircraft is approximately equal. In all of the parameters relevant for aerial combat, i.e. thrust-to-weight ratio, wing loading, climb rate, service ceiling and top speed, the typhoon is superior to the Rafale.Both Rafale and Typhoon were built to be aerodynamically instable along the longitudinal axis, which results in the natural tendency to lift the nose of the aircraft, i.e. to pitch. The canards are used in order to balance this tendency such that the aircraft can be redirected from a looping into a straight flight path. The Rafale's canards are positioned right in front of the wings, whereas the typhoons canards are positioned further away from the wings right below the cockpit. This means that the typhoon's canards are further away from the axis of rotation. The longer lever means that the typhoon's canards can apply a greater leverage force (torque) in order to redirect the nose of the aircraft. Consequently, the instantaneous as well as the continuous pitch rates of the typhoon should be considerably better than the Rafale.PerformanceTyphoon is the faster aircraft and has a signNowly superior thrust-to-weight ratio which gives it better acceleration at all altitudes. This also allows Typhoon to retain and regain energy faster than Rafale in a horizontal dogfight situation. It also has a signNowly higher service ceiling of over 60,000ft which allows it to operate uniquely well alongside the US F-22 Raptors ‘high and fast’ in the air superiority role which is exactly where it was designed to excel. Rafale has a signNowly superior load-carrying capability and its manoeuvrability at low speeds and altitudes is also better than Typhoon’s although the margin is slim except where both aircraft are very heavily loaded. In terms of horizontal manoeuvrability, Rafale has the better instantaneous turn rate allowing it to reverse its turns more quickly but Typhoon can sustain higher g’s for longer without bleeding speed. High alpha performance is similar, with both aircraft limited by their air intake placement and lack of thust vectoring although Typhoon’s intakes can at least ‘gape’ slightly to increase airflow at high Alpha and low speeds. Range is almost identical at around 2000nmi with three drop-tanks in ‘ferry’ configuration but in terms of strike missions, Rafale’s greater payload capacity allows it to carry greater under-wing fuel loads for a given strike payload. The high availability of aerial refuelling in both air force’s standard operating scenarios means the small differences are almost unimportant for overall combat effectiveness.the french rafalethe eurofighter typhoonsource:Typhoon versus Rafale: The final word
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Which air defence system is more effective Barak-8 or the S-400?
First you need to understand the difference=Barak-8 and S-400 cannot be directly compared because both systems are of different class. ... Barak-8 is a surface to air missile. S400 is a whole air defense system consisting of various missiles from 40-400 km range and powerful radars. Barak-8 is equivalent to the 9M96E missile of the S400 missile system. So let's know first what is barak-8 and how is important for India.Barak-8=Barak 8 also known as LR-SAM or as MR-SAM is an Indian-Israeli surface-to-air missile (SAM), designed to defend against any type of airborne threat including aircraft, helicopters, anti-ship missiles, and UAVs as well as cruise missiles and combat jets out to a maximum range of 70 km, however, reports suggest the missile has been increased to a maximum range of 90 km following “range upgrade discussions” between India and Israel during November 2014.Some news agencies have referred to the missiles range at 100 km.Both maritime and land-based versions of the system exist.The Barak-8 has been designed to defend against a variety of short-to-long-range airborne threats, including fixed-wing aircraft, helicopters, drones and projectiles. It incorporates a state-of-the-art phased array multi- mission radar, two-way data link, and a flexible command and control system that enables it to simultaneously engage multiple targets day and night and in all-weather conditions. Due to the comprehensive simulation and preliminary subsystem testing, only three flight tests are sufficient to clear the system for operational induction. Additional tests will follow the initial phase to further explore the system’s performance and capability enhancements.Barak 8 is based on the original Barak 1 missile and is expected to feature a more advanced seeker, alongside range extensions that will move it closer to medium range naval systems like the RIM-162 ESSM or even the SM-2 Standard. Israel successfully tested its improved Barak II missile on July 30, 2009. The radar system provides 360 degree coverage and the missiles can take down an incoming missile as close as 500 meters away from the ship.This missile was primarily developed by Israel to equip its warships to protect them from the Yakhont missiles which its neighbor was procuring. Israeli ships carried only short range SAMs and didn’t have modern radars capable of handling a dedicated attack by its enemies using Yakhont missiles. The answer to this problem was the extremely agile and accurate Barak-8 which packed the best available technology into a medium sized missile. With a max range of 90+ km, it operates in conjunction with the MF-STAR radarwhich can detect sea skimming missiles at 30-35 km range.It combined a medium range and short range missile into one missile, having a minimum engagement range of just 300 m and max of 90+ km. There are claims that a single Barak-8 can stop a BrahMos as close as 500 m from a ship. One of the reasons behind the claims is that the Barak-8 is very accurate and has an active homing radar seeker, which enables the ship to technically forget about the missile after its launch and the missile finds the target on its own although the ship does provide guidance and mid-course updates.According to Defence Experts, the missile system delivers an accurate, high quality, real-time arena situation picture and extracts low Radar Cross Section (RCS) targets even in the toughest environmental conditions. It is a digital Active Electronic Steering Array (AESA) Radar System which incorporates new and advanced technologies.The Barak 8 missile system can operate by night as well as by day in addition to all weather conditions. It is capable of successfully dealing with simultaneous threats engagements, even in severe saturation scenarios.The system has a very short reaction time and a fast missile vertical launch capability with 360 degree coverage. The system optimizes the coordination between the missile and batteries by using an advanced broadband communication network.Four variants have been proposed for service In Indian Army Navy and Airforce;Naval Barak-8 (70km) system designed for anti-air and anti-ship missile defence both long range as well point defence. This system also comprises of EL/M-2248 MF-STAR AESA radar. As per rumours it could also serve as a point defence ABM.MRSAM(70km) variant for the IAF, designed for air defence and cruise missile defence.A highly mobile shorter range variant (50km) for IA, designed for air defence as well anti-PGM capabilities which could possibly include point defence ABM capabilities (Nasr).An extended range version (150km) called Barak-8ER which in all likelihood will find its way to IN and IAF inventory.Barak-8 as an AAM.Indian air force is one of the proposed user of KS-172 and R-37. These are the long range missiles that were designed primarily for killing slower, less maneuverable platforms like large transports, refueling tankers, AWACS and other C4ISTAR platforms. But these missiles are practically useless for engaging highly maneuverable fighters because the low g-tolerance of these missile don’t allow them to do so.By rule of thumb, an AAM needs to pull atleast 4 times more g-force than the target it is engaging, something the aforementioned missiles cannot do.According to sources, Rafael and Raytheon are developing a Stunner (David’s sling program) based long range BVRAAM leveraging on the key technologies developed for program namely the dual seekers placed in its very unique “dolphin nose” and a triple pulse motor. So my question is what’s stopping India from doing the same? Here are few points in favour;Barak-8 is already in service with India as its co-developer.It has an excellent active seeker.It has 2-way datalink.It can be guided by Phalcon or DRDO AEW&CS.It has very high g performance. At 80g, it is twice that of contemporary AIM 120C5, SD-10 etc.At 60 kg, its warhead is five times larger than the one in AIM 120C5.At 4.5 meters and 275 kg weight it is not signNowly longer or heavier than contemporaryBVRAAMs. At the same time it short enough to be carried internally by FGFA.By rule of thumb, an AAM has 3 times the range when the same missile is fired from the surface. This suggests that Barak-8 as AAM could very well have 200 km+ range.With use of existing technologies, this program could be very economically efficient.With Barak-8 as BVRAAM, even lower rung IAF fighters like Tejas or Mirage could kill much superior Flankers from the Eastern side at much longer distances when backed by AWACS.This could be the solution to many of IAF problems like delays in aircraft acquisition, dwindling squadron strength, less reliance on Su-30MKI, more threats neutralized with higher sortie generation.Barak-8ERIt has been reported that an ER (extended range) variant of the Barak 8 is under development, which will see the missiles maximum range increased to 150 km. Designed to engage multiple beyond visual range threats, the low launch signature Barak-8ER is understood to retain the same autopilot/inertial navigation system and active radar seeker guidance as the Barak-8, although some modifications to the software and to the missile control surfaces are likely. The booster increases the length of the missile at launch from its current 4.5 m to nearly 6 m, although the length in flight after the booster has been jettisoned may be slightly less than the base Barak-8 missile, if a TVC is not present. The missile diameter and fin spans are thought to be the same as the base Barak-8. The booster weight is currently unknown, although the missile’s weight after the booster has been jettisoned is the same as that for the current Barak-8 configuration.Levy said that initial operational capability (IOC) for Barak-8ER will first be declared for the naval variant, followed by IOC for the land variant. He declined to comment on a launch customer for Barak-8ER, but noted “existing Barak-8 customers will be interested in this configuration because it offers additional capability to their current system”. The missile is expected to equip the Indian Navys future Visakhapatnam-class destroyers.MR-SAMMR-SAM is the land based configuration of the missile. It consists of a command and control system, tracking radar, missile and mobile launcher systems. Each launcher will have eight such missiles in two stacks and are launched in a canister configuration. The system is also fitted with an advanced radio frequency (RF) seeker.The Indian Army ordered five regiments of this version, which consists of about 40 launchers and 200 missiles for ₹17,000 crore (US$2.5 billion). It is expected to be deployed by 2023.Indian Army, Navy and Airforce Deals To Defend Indian BordersSpyder DEAL 9 squadron = 18 batteries = 54 launchers around 400 missiles = $ 1200 millionBarak 8 NAVAL DEAL = missiles no unknownBarak 8 IAF DEAL = 9 squadrons =18 batteries = 54 launchers = 490 missiles = $2400 millionBarak 8 ARMY DEAL = 3 regiments = 9 batteries = 27 launchers = 200 missiles = $2400 million.*NOW LETS TALK ABOUT S-400*TriumphAir defence missile system S-400MissionThe S-400 Triumph mobile multichannel air defence missile system (ADMS) is designed to engage current and future air threats: aircraft jammers, early-warning and direction aircraft, reconnaissance aircraft (including those that are part of reconnaissance-strike complexes), strategic aircraft carrying airborne missiles, tactical and operational-tactical ballistic missiles, medium-range ballistic missiles and other air attack vehicles in a heavy ECM environment.ComponentsThe Triumph ADMS consists of the 30K6E battle management system, six 98ZH6E SAM systems, ammunition load comprising the 48N6E3 and (or) 48N6E2 surface-to-air missiles (SAMs) and 30Ts6E maintenance facilities. The use of the 48N6E SAM is possible. In order to use the Triumph ADMS in the foreign customer’s defence system, the appropriate changes to equipment, software and operational documentation may be made in accordance with established procedure.The Triumph ADMS is capable of engaging targets both independently and in cooperation with higher command posts or external radar data sources.Main characteristicsTarget detection range, km± 600Number of simultaneously tracked targets± 300Max target speed, m/s4800Number of simultaneously:engaged targets± 36guided missiles± 72Engagement range, km:aerodynamic target3-250*ballistic target5-60Min/max engagement altitude, km:aerodynamic target0,01/27ballistic target2/27Continuous operation time (with refueling)unlimitedTravel speed of ADMS components in self-propelled mode, km/h:hard-surface road± 60soil road± 40across country± 25Emplacement/displacement time (combat assets), min5Operating temperature range, ºС±50.Per unit cost is estimated at $400 million. So basically both system are designed for different performance.thank you and I hope you get it.
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