Pages

Monday, September 24, 2018

WORLD'S FASTEST JET


NASA X - 43


Image result for NASA x-43 

Image result for NASA x-43

Image result for NASA x-43

Image result for NASA x-43

NASA X-43 is the fastest jet in the world. NASA X-43 was an experimental unmanned hypersonic aircraft with multiple planned scale variations meant to test various aspects of hypersonic flight. It was the part of X-plane series and specifically of NASA's Hyper-X program. The X-43 set several airspeed records for jet aircraft. It is the fastest aircraft on record at approximately Mach 9.6.


A winged booster rocket with the X-43 placed on top, known as "stack", was drop launched from a Boeing B-52 Stratofortress. After the booster rocket brought the stack to the target speed and the altitude, it was discarded, and NASA X-43 flew free using its own engine, a scramjet.


The first plane in the series, NASA X-43A, was a single-use vehicle. Only three of them were built. The first was destroyed after malfunctioning in the flight; the other two flew successfully, with the scramjet operating for approximately 10 seconds, followed by a 10-minute glide and intentional crash into the ocean.



Image result for NASA x-43 

Related image

Related image

NASA X-43A aircraft was a small unpiloted test vehicle measuring just over 12 ft (3.7 m) in length. The vehicle was a lifting body design, where the body of the aircraft provide a significant amount of lift for the flight, rather than relying on wings. The NASA aircraft weighed roughly 3,000 lb (1,400 kg). NASA X-43A was designed to be fully controllable in high-speed flight, even when gliding without propulsion. However, the NASA aircraft was not designed to land and be recovered. Test vehicles crashed into the Pacific Ocean after the test was over.

Traveling at Mach speeds produce the lot of heat due to the compression shock waves involved in the supersonic aerodynamic drag. At high Mach speeds, heat can become so intense that the metal portions of the airframe could melt. NASA X-43A compensated for this by cycling water behind the engine cowl and sidewall leading edges, cooling those surfaces. In the tests, the water circulation was activated at about Mach 3.


Image result for engine of NASA x-43

Image result for engine of NASA x-43

Image result for engine of NASA x-43

Image result for engine of NASA x-43

The craft was created to develop and test a supersonic-combustion ramjet, or "scramjet" engine, an engine variation where external combustion takes place within air that is flowing at the supersonic speeds. NASA X-43A's developers designed the aircraft's airframe to be part of the propulsion system: the forebody is a part of the intake airflow, while the aft section functions as an exhaust nozzle.

The engine of NASA X-43A was primarily fueled with hydrogen fuel. In the successful test, about two pounds ( 1 kg ) of the fuel was used. Unlike rockets, the scramjet-powered vehicles do not carry oxygen on board for fueling the engine. Removing the need to carry the oxygen significantly reduces the vehicle's size and weight. In the future, such lighter vehicles could take the heavier payloads into space or carry payloads of the same weight much more efficiently.

Scramjets only operate at speeds in the range of Mach 4.5 or higher, so the rockets or other jet engines are required to initially boost scramjet-powered aircraft to this base velocity. In the case of NASA X-43A, the aircraft was accelerated to high speed with a Pegasus rocket launched from a converted Boeing B-52 Stratofortress bomber. The combined NASA X-43A and Pegasus vehicle was referred to as the "stack" by the program's team members.

The engines in NASA X-43A test vehicles were specifically designed for a certain speed range, only able to compress and ignite the fuel-air mixture when the incoming airflow is moving as expected. The first two NASA X-43A aircraft were intended for flight at approximately Mach 7, while the third was designed to operate at speeds greater than Mach 9.8 at altitudes of 98,000 ft (30,000 m) or more.


by - FROZEN FOUR GAMING

Saturday, September 22, 2018

WORLD'S FASTEST CAR

                       

HENNESSEY VENOM F5

 


Image result for HENNESSEY VENOM F5: 301 MPH   Image result for HENNESSEY VENOM F5: 301 MPH
Image result for HENNESSEY VENOM F5: 301 MPH   Image result for HENNESSEY VENOM F5: 301 MPH

The Hennessey Venom F5 is an upcoming American high-performance sports car that is manufactured by the American vehicle tuning company Hennessey Special Vehicles. The Hennessey Venom F5 will be the first vehicle to be developed and manufactured in-house from the company including the chassis, body work, engine and exhaust system. The F5 name is a reference to the F5 tornado, that was the fastest in the Fujita scale, reaching as high as 261–318 mph ( 420–512 km/h ). Developed by the company along the Venom F5 was unveiled at the SEMA Show in Las Vegas, Nevada, on November 1, 2017, with high expectations of its intended world-beating speed record. With the Venom F5, Hennessey intends to set a new benchmark in the world Initial reports had the Venom F5 powered by a completely "bespoke and proprietary" 7.4 L twin-turbocharged V8 engine, later it was revealed that while being still in development, the engine is to have an even larger capacity of 8.0 liters but final displacement of the engine was revealed to be the 7.6 liters.

The engine is estimated to be produce 1,600 hp ( 1,193 kW; 1,622 PS ) and 1,300 lb·ft ( 1,763 N·m ) of torque. Pennzoil and Shell are both the partners with Hennessey to help fund the 301 mph ( 484 km/h ) record attempt. The top speed is the claimed to be 301 mph ( 484 km/h ) through a V-MAX speed-tracking system. Hennessey predicts that the car will accelerate from 0–186 mph ( 0–300 km/h ) in a time of under 10 seconds and from 0–249 mph ( 0–400 km/h ) in a time of under 20 seconds.


Image result for hennessey venom f5 engine        

Image result for hennessey venom f5 engine

 

The available transmissions will be a 7-speed single-clutch semi-automatic transmission with paddle shifters, driving the rear wheels, making the car rear-wheel drive along with the 6-speed manual transmission, both transmissions being offered as an option to customers. The chassis and the body will be made almost entirely of carbon fiber. Active aerodynamics are now paired with the body, the first for Hennessey. The weight reportedly stands at 2,950 lb ( 1,338 kg ) with the fluids, setting the power-to-weight ratio at 1,196 hp per ton. Because the use of active aerodynamics and a sleek, new design it has an estimated drag coefficient of Cd=0.


Image result for hennessey venom f5 engine


The brakes are from Brembo, and tires provided are Michelin Pilot Sport Cup 2 tires offering high grip and rig the price of the car in the United States will be US $1.6 million, and GB £1.2 million in Europe with the planned production of only the 24 units. The owners of the car will be hand-picked, in the lieu of "first come, first serve" basis idity of high performance cars with other bespoke components.


by - FROZEN FOUR GAMING