the V2 rocket was bigger and faster than the V1 flying bomb. the V1 being a flying bomb was smaller and had a pulse jet engine and the V2 which was a rocket had a bigger rocket engine.
ACTUAL SIZE COMPARISON:
V1:
Length: 25' 4"
wingspan: 8.32 meters
V2:
length 14 m (45 ft 11 in)
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 ]
the V1:The V1 flying bomb also know as the doodle bug, buzz bomb and V1 rocket, was a missile driven by a pulse jet engine was used by the Germans in world war 2 to bomb England to get ready for the invasion of Britain (operation sea lion) which later was called off, it used a gyroscope navigation system to guide it to its target, the fuel would run out above England and the bomb would fall out of the sky and explode. the V1 bomb had a large launch ramp which meant it could be sighted and bombed and could move. the V2: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
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.
Rip V1 is Classful routing protocol Rip V2 is Classless routing Protocol
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.
The equations of motion that relate velocity, distance, time and acceleration for the specific case of "constant acceleration" can be written as follow, acceleration a = (v2 - v1)/t from which v2 = v1 + at The distance covered during t time d = vav x t, where vav refers to average velocity in the process from v1 to v2. For the case of constant acceleration vav = (v1 + v2)/2. Substituting in d we get d = (v1 + v2)/2 x t from which, v2 = 2d/t - v1 If we take the constant acceleration to be zero, a = 0, you can see that the second equation we wrote becomes, v2 = v1 (There is no acceleration), so our equation for the distance d becomes, d = v1 x t = v2 x t
Two vectors; V1 + V2=0 where V1= -V2, two opposite vectors.
The volume of a cylinder is:V1 = pi r2 hV2 = pi (2r)2 2h = pi 4r2 2h = 8pi r2 hV1/V2 = (pi r2 h)/(8 pi r2 h)V1/V2 = 1/8Thus, V2 is 8 times bigger than V1.