the V2 was also used by the Germans in world war 2 to bomb the British, unlike the V1 the V2 had a proper rocket engine (newly invented by the Germans) it was much faster than the V1 and had a bigger warhead the launch sites could be bombed because they were mobile and could be towed and set up anywhere. The V2 also was impossible for any fighters to catch up with unlike the V1 which was slow enough that the British invented the Hawker tempest and typhoon .
the V in V1 and V2 stands for Vengeance weapon
Deployable Rockets designed to carry a munitions payload would be Germany. With the V1 and V2 missiles.
The V1 and V2 Rockets
ACCORDING TO MY CHILDHOOD DIARY, THE LAST V2 TO FALL NEAR OUR HOUSE (lONDON nW4) WAS ON MARCH 4, 1945
The V1 was not a rocket, but a flying bomb powered by a simple form of jet engine called a pulse jet. It was equivalent to a modern cruise missile. A V2, on the other hand, was a rocket propelled rocket. The V1 could be stopped with gunfire or by attacks from fast fighters such as the Hawker Tempest, de Havilland Mosquito. The V2, on the other hand was undetectable, as it was fired into the stratosphere and hit its target with a speed higher than that of sound.
No, the V2 did not have enough range to hit Liverpool, only south east England. Liverpool is in the north west of the country. Liverpool was bombed in WW2 but with bomber aircraft not missiles.
v1 = initial velocity v2 = final velocity
There is an example of the Germans using the first air launched guided missile in WW2. The Katushia rocket and the Nebelwerfewr were missile systems of sorts. The V1 & V2 Rockets were missiles, the V2 went into sub-space in flight.
( | V1 - V2 | / ((V1 + V2)/2) ) * 100
v1 is design speed and v2 rotation speed
[ ((v2 - v1) / |v1|) * 100 ]
No. Result= V1 + V2 = V2 + V1.
the v1 and v2 were German rockets and i asume they stand for something German (the "v" i mean). Because of the places they were made and what they were made out of. They, although stand for nothing, were covert-ops type missiles designed mainly for clearing out garrisons and launching sneak attacks.
Deployable Rockets designed to carry a munitions payload would be Germany. With the V1 and V2 missiles.
Let t1 and t2 be the times for the two stages. Then t1 = x/v1 and t2 = x/v2 Total distance = x + x = 2x Total time = t1 + t2 = x/v1 + x/v2 = x*(1/v1 + 1/v2) Average velocity = total distance / total time = 2x divided by x/(1/v1 + 1/v2) = 2(1/v1 + 1/v2) which is the Harmonic mean of v1 and v2.
Rip V1 is Classful routing protocol Rip V2 is Classless routing Protocol
5 * 10**-12 mol 32 * 10**-9 mol Concentration (M) * Volume (L) = mols C1*V1=C2*V2 (5*10**-12)*V1=(32*10**-9)*V2 (5*10**-12)*V1/(32*10**-9)=V2 (5*10**-3)*V1/32=V2 The volume of the 5 picomolar solution that you wish take = V1 The volume of the 32 nanomolar solution that you need to make V1 at 5pM concentration = V2 Take V2, and place into graduated cylinder and fill to V1.
The most common multi output systems are used for getting differential output. i.e., if V1 and V2 are the 2 outputs, then usually the difference, V2-V1 or V1-V2 is used.