Nothing. There is no l in the equation.
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∙ 11y agoIt depends on what aspect of constant velocity you are talking about. Since the velocity is not changing, one valid equation is: V = [number] At the same time, acceleration is zero, so another equation is: A = 0 If "p" is position and p1 is the original position and p2 is the current position after tine lapse "t," then: p2 = p1 + Vt
V=1/3(l+wl) v=1/3l(1+w) 3v=l(1+w) 3v/(1+w)=l
VDLV The first V should have a bar over it to represent 5000. D = 500; L = 50; V = 5.
LXVII is 67. L - 50 X - 10 V - 5 I - 1
Roman numeral values: M=1000, D=500, C=100, L=50, X=10, V=5 and I=1.
It usually represents current in amps as in the equation V=IR (volts equals current times resistance)
in the equation p=m x v, the p represents
It is impossible to answer the question without some information about V or t or what the equation is meant to represent.
It depends on what aspect of constant velocity you are talking about. Since the velocity is not changing, one valid equation is: V = [number] At the same time, acceleration is zero, so another equation is: A = 0 If "p" is position and p1 is the original position and p2 is the current position after tine lapse "t," then: p2 = p1 + Vt
the velocity of water flow within a drainage pipe; the equation is V=L/t L= Length t=time. Then the flow rate; Fr=A*V, Where A= sectional area and V = velocity.
its a equation
V=1/3(l+wl) v=1/3l(1+w) 3v=l(1+w) 3v/(1+w)=l
Mass flow in air can be calculated if you know the pressure drop across the pipe. Then it can be calculated using Darcy's Equation for Pressure,which is: P2-P1 = (4fLv*v)/d*2*g where, P2 & P1 are pressures at two points in pipe, f = friction factor, L= length of pipe, v = velocity of fluid, d = diameter of pipe, g = gravity. from this formula we can calculate the velocity and hence the flow rate.
kinetic energy =1/2 x m x v x v
Where can I get a manual for a Canon Palm Print P1 DHV
Where can I get a manual for a Canon Palm Print P1 DHV
The numbers (1 and 2) are subscripts such as p1v1. The subscript numbers distiquish them from others of the same letter that are going to be used in the same equation. In this case there are probably 2 Pressure variables and 2 Volume variables. Since you want to use p and v for pressure and volume but there are pressures and volumes at let's say different gauges in the system then we have to distiguish the two. p1 = pressure read from gauge one and v2 is volume read from gauge 2. This, among others, is part of the energy equation for thermodynamics p1v1 = p2v2. The P is for pressure and the V is for Volume. _______________________________________________________________________ My answer This occurs to Boyle's Law.