Answer:
s = mV/2b
Assumptions: 1. the darts finally velocity is zero
2. The force being exerted on the dart by the block is constant and so the dart moves through the block with constant acceleration in the opposite direction. (Newton's second law)
3. Since the acceleration of the dart through the block is constant, then the equations of constant acceleration motion apply to the motion of the dart through the block.
Explanation:
Let a = acceleration of the dart through the block
V = velocity of the dart
m = mass of the dart
Vf = finally velocity of the dart
S = distance traveled by the dart through the block.
From Newton's second law of motion which states that the acceleration of a body is in the same direction as the net force acting on the body and is equal to the force divided by the mass. That is F = ma
Also F = -bv ........(1)
Therefore -bv = ma........(2)
From the equals of constant acceleration motion, Vf² = V² + 2aS
Vf = 0
0² = V² + 2aS
-2aS = V²
a = -V² / 2S
Substituting this expression for a in
Equation (2) above
-bV = m( - V²/2S)
On rearranging,
S = mV/2b
Answer:
Doubling the large mass
Explanation:
Doubling the destance bewteen the masses will simply make the gravitational force weaker
same with every answer exce
Answer:
I don't think so because we can't breathe in space
Explanation:
Answer:
Explanation:
We define our values according to the text,
R= Radius
Velocity
Strenght of the vortex filament
From this and in a vectorial way we express an elemental lenght of this filmaent as . So,
Where imply a vector acting perpendicular to both vectors.
Applying Biot-Savart law, we have,
Substituting the preoviusly equation obtained,
So we can express the velocity induced is,