---
title: X-43A Hyper-X
slug: x-43a-hyper-x-9db71
url: /detay/x-43a-hyper-x-9db71
type: article
language: English
entity:
  primary: X-43A Hyper-X
  type: article
  disambiguation: X-43A Hyper-X: Hypersonic flight record-breaker. Mach 9.6 speed! NASA's scramjet tech.
  categories:
    - name: Aviation And Space
      slug: havacilik-ve-uzay
      url: /kategori/havacilik-ve-uzay
  tags:
    - Mach 9.6
    - NASA Hyper-X
    - Hypersonic Flight
    - X-43A
    - scramjet
author: Yakup Hilmi Altuntaş
created_at: 2025-05-09T22:29:55.896766+03:00
updated_at: 2025-05-13T17:21:24.770846+03:00
image: https://cdn.t3pedia.org/media/uploads/2025/05/09/mF8JpdZYAbwKYXgxcrbwx6Nelwj9s81z.webp
---

# X-43A Hyper-X

<!-- CONTEXT: KURE Information Cards for "X-43A Hyper-X" -->

## KURE Information Cards

### KURE Information Card: X-43A Hyper-X

![DBxEAfJaOaathQN1V0qExQCSxXCHJLsi.webp](https://cdn.t3pedia.org/media/uploads/2025/05/09/3KKTmXixtz6Qeoykj1BEt7xkfQMgEUAv.webp)

| Field | Value |
|-------|-------|
| First Flight(s)(Text) | June 2 2001 |
| Fuel | Gaseous Hydrogen |
| Engine Type | Scramjet |
| Flight Altitude | 110.000 feet |
| Speed | Mach 9.6 |
| Last Flight | November 16 2004 |

<!-- CONTEXT: Article Content for "X-43A Hyper-X" -->

## Article Content

The X-43A is an experimental aircraft developed by [NASA](/en/detay/boeing-8850c/llms.txt) for the purpose of researching hypersonic flight. It is equipped with a scramjet (supersonic combustion ramjet) engine, which allows the aircraft to operate by using atmospheric air for propulsion. This capability enables the development of smaller and lighter vehicles compared to conventional rocket-powered systems. In 2004, the X-43A set a world speed record for air-breathing vehicles by reaching Mach 9.6 during a series of flight tests, marking a significant milestone in the exploration of hypersonic technology.

![Image](https://cdn.kureansiklopedi.com/media/uploads/2025/05/09/ZK8jWQm0eaPt4uezYlZklFzdeFNHn9yd.webp)
*X-43A During Its Flight (Photo: Jim Ross, NASA)*

### **History and Development**

The X-43A was designed as part of NASA's Hyper-X program, which was initiated in 1996. This program aimed to develop scramjet technology and test the flight performance of vehicles capable of reaching hypersonic speeds. The Hyper-X program is a high-risk, high-reward research initiative focused on advancing propulsion technologies. The X-43A was first tested in June 2001; however, the flight ended in failure due to a malfunction in the rocket’s flight control system. After several attempts, by 2004, the X-43A successfully achieved flight tests, reaching speeds of Mach 7 and Mach 10, marking significant milestones in its development.

### **Technical Specifications**

The X-43A is a single-use vehicle with a length of approximately 12 feet and a width of 5 feet. The first and second vehicles were designed for Mach 7 speeds, while the third vehicle was developed for Mach 10 speeds. The [scramjet engine](/en/detay/ramjet-engines-2cfe4/llms.txt) of the X-43A compresses air as the aircraft moves rapidly forward, allowing the combustion of fuel. The fuel used in the X-43A is [hydrogen](/en/detay/hydrogen/llms.txt) gas. After being launched from a [B-52B](/en/detay/boeing-b-52-stratofortress-25095/llms.txt) aircraft, the vehicle was carried to higher altitudes by a rocket before performing its test flights.

![Image](https://cdn.kureansiklopedi.com/media/uploads/2025/05/09/2TU4k3n6X3rbLTUMaS3CnWbYabTlvmzX.webp)
*The X-43A is carried to launch altitude by a NASA-owned B-52B aircraft (Photo: Jim Ross, NASA)*

### **Record-Breaking Flights**

In March 2004, the X-43A set a world speed record by reaching [Mach 6.8](/en/detay/x-43a-hyper-x-e45aa/llms.txt). Later that year, in November 2004, it achieved a speed of Mach 9.6, setting the highest speed record for air-breathing vehicles. These flights surpassed the speeds of the world’s fastest jet-powered vehicles and broke the previous record held by NASA’s X-15 aircraft, which had reached Mach 6.7. During the Mach 10 flight, the X-43A traveled at approximately 7,000 mph at an altitude of 110,000 feet.

### **Test Procedures and Developments**

The first flight in 2001 ended in failure, with the booster rocket being deliberately destroyed. The flight control system of the booster failed to operate as expected due to faulty design models. Following this failure, new designs were made to reduce aerodynamic loads, and more powerful booster control systems were developed.

### **Scramjet Technology**

Scramjet engines are ramjet engines that operate at supersonic speeds, with air flow occurring at speeds above Mach 3. Designed to function at speeds ranging from Mach 3 to Mach 15, these engines had been successfully tested on ground-based test rigs. However, the X-43A flight marked the first successful demonstration of a scramjet engine’s performance in an actual flight environment.

<!-- CONTEXT: Academic Sources and References for "X-43A Hyper-X" -->

## Academic Sources and References

1. MathWorks. "NASA's X-43A Scramjet Achieves Record-Breaking Mach 10 Speed Using Model-Based Design." MathWorks, accessed May 9, 2025. https://www.mathworks.com/company/user\_stories/nasas-x-43a-scramjet-achieves-record-breaking-mach-10-speed-using-model-based-design.html.
2. NASA. "X-43A." NASA, accessed May 9, 2025. https://www.nasa.gov/reference/x-43a/.