Karl Poggensee launched a powder rocket at a field near Berlin. Although the rocket technology did not represent a forward step, the rocket was was instrumented with a barometer, a camera, and a velocity measurement device. The rocket also set an altitude mark that Winkler, Nebel, and the other German liquid rocketeers had to beat in order to prove the superiority of the liquid fuel rocket.
Funded by a Mr Hueckel, Winkler flies the first European liquid propellant rocket at Dessau, Germany. It is 60 cm high, weighs 5 kg, including 1.7 kg of liquid oxygen and methane propellants. The rocket consists of three tanks - one for the fuel, one for the oxygen, and one for the nitrogen gas that pressure-feeds the motor. The motor is a simple 18-inch long cylinder, housed at the centre of the prismatic rocket. The rocket reaches only 3 m in the first test due to a malfunction.
Nebel and the other designers realise that using liquid oxygen to cool the combustion chamber simply would not work - it turned to gas, and the excessive pressure eventually burst the oxygen tank. They turn to a water-cooled combustion chamber. The end result was an aluminium pressure-fed engine that weighed 85 g but produced 32 kgf while burning 160 g of liquid oxygen and gasoline per second - a specific impulse of 200 seconds. The new design proves reliable and is demonstrated to visitors from the American Rocket Society in April 1931.
Riedel improvises a rocket, using the thrust chamber developed for the Mirak, fed by two long tanks containing liquid oxygen and gasoline, which would form guiding sticks for the forward-mounted engine. The lashed-together rocket rises to 20 m on its first 'static' test.
First official test flight of the Mirak (Minimum Rakete) II. A flight-weight version of Riedel's 'flying test stand' takes off into a looping trajectory, sending the VfR experimenters running for cover, but reaching 60 m altitude in the process. Attending were Wernher Von Braun, Klaus Riedel und Kurt Heinisch (Rudolf Nebel, the chief engineer, was in Kiel at the time).
The perfected Repulsor has the propellant tanks close together at the centreline, to form a guide stick in the manner of Congreve's war rockets. It reaches an altitude of 1000 m, and the parachute recovery system functioned perfectly at apogee. Subsequent such 'one stick' Repulsors' will reach 1500 m altitude and 3000 m range - in fact, they are normally launched only partially-fuelled to prevent them landing outside the perimeter of the Raketenflugplatz.
Robert Esnault-Pelterie and Jean-Claude Barre begins experiments iwth liquid propellant rocket engines under funding from the Department of War. Only three weeks later Esnault-Pelterie loses the fingers of his left hand in an explosion in the laboratory. Nevertheless he and Barre persevere.
After one year of operation of the worlds first 'rocket port', the Ufa weekly newsreel carries an extensive film report on the VfR's experiments. By then 270 engine test runs had been completed, as well as 87 test flights of Repulsors. However the filmmakers also capture an errant rocket leaking gasoline onto a shack owned by the police, which burns down. This leads to further restrictions on VfR activities at the site.