That depends on the value of v.
Replace you with u, typo sorry.
It's 1/2 squared times V divided by M V( velocity) M(matter)
All that can be said, based on the available information is: t + v2
There are 207.88556 cubic inches in the cylinder. To find the volume, you must multiply the area by the depth. To find the area, you multiply the radius-squared by pi (3.1416). The Area: A = pi x R-squared A = 3.1416 x 2.75 squared A = 3.1416 x 7.5625 A = 23.75835 The Volume: V = Area x Depth V = 23.75835 x 8.75 V = 207.88556
Assuming constant acceleration: distance = v(0) t + (1/2) a t squared Where v(0) is the initial velocity.
Replace you with u, typo sorry.
m x (v)squared/F where m is mass, v is the velocity .. this value must be squared. F is the Force
That's the formula for kinetic energy. Only the "v" (velocity, or more accurately, speed) is squared in this case. In other words, mv2 is the same as m times v times v.
v2+36v+99 = (v+3)(v+33) when factored
v=3.14(r){squared}(h) The formula is pi x radius (squared) x the height.
Okay. Resistance by ohms law is given by R = V/I But Power P = V * I Dividing R/P = 1/ I 2 Or R = P / I squared For a constant power, resistance is inversely proportional to I squared and not simply proportional to.
Divide all terms by 4 and it then factors as: (v+4)(v-12)
Formula for the volume of a cylinder.
v = 3.14 times radius squared times height
V=pD2L/4 D2=squared not multiplied by 2
It's 1/2 squared times V divided by M V( velocity) M(matter)
Squared 2 Ex. (V )