D2 fuel oil, also known as diesel fuel, is a refined petroleum product used primarily in diesel engines for transportation and industrial applications. It has a higher viscosity and lower volatility compared to lighter fuels, making it suitable for heavy machinery and vehicles. D gas oil, often referred to as gas oil or heating oil, is a similar distillate fuel but is typically used for heating purposes, combustion engines, or in certain industrial processes. Both fuels are characterized by their sulfur content and energy density, influencing their environmental impact and regulatory considerations.
Gas and Oil. :D
LUPANG HINIRANGG F# A G D A B C2 B A B GG F# A G D A B C2 B A GG F# A G D A B C2 B A B GG F# A G D A B C2 B A GG F# G A A D D A A DD B C2 D2 E2 D2G F# G A A D D AA D D B C2 D2 E2 D2G F# G A A D D AA D D B C2 D2 E2 D2G F# G A A D D AA D D B C2 B A B A GG F# G C2 C2 D2 D2 E2 D2 C2 D2 E2F2 E2 D2 E2 C2 D2 B B C2G F# G C2 C2 D2 D2 E2 D2 C2 D2 E2F2 E2 D2 E2 C2 D2 B B C2correct way of singing lupang hinirang ^^hope you enjoy guysby:tiff.kath.chloe.chin.raven.sofia GEE LAHI FAM (.l.)
d2/(d - c) + c2/(c - d) = d2/(d - c) - c2/(d - c) = (d2 - c2)/(d - c) = (d + c)(d - c)/(d - c) = d + c
d2 + 8d + 7 = (d + 7) (d + 1)
Circumference = pi*d Area = pi*d2/4 So 4*area = pi*d2 4*area/Circumference = pi*d2/(pi*d) = d
There's no way to know that until you know the value of ' d ' .If the assignment is to factor that expression, then here is the factored form:d3 + d2 = d2 (d + 1)
Suppose the number is n/d. Then n/d >= d => n <= d2 if d < 0 or n >= d2 if d > 0.
U l r d2 l2 d l2 u5 l2 u2 r u r2 d2 u3 r2 d2 l r u2 l2 d2 u2 r4 d2 l3 r u2 l2 d l2 d l d2 r2 d5 r2 u l d l u4 d3 r4 u2 l u l2 r d2 u r2 d2 l3 d l u2 d r2 u3 r u3 r2 u2 l2 d5 l d3 r2 u2 l r d2 l2 u2 r u l
Terminator Theme ============= C2 D2 D2# ------ D2 A1# D1# ------- C2 D2 D2# ------ D2 A1# G2 F2 ----- C2 D2 D2# ------ D2 A1# F1 --------- D1# --------- C1 D1# D1 -------------
no.. oil is a black liquidy substance that is used for fuel.
To answer this question, let's think about the excitation and relaxation processes involved. In the excitation process inside a deuterium lamp, an electrical arc between an oxide coated filament and an electrode excites D2 to D2*. Next, the D2* dissociates into individual D atoms. Let's call these D' and D''. Also, a photon of light is released. For an individual event, the total energy posssessed by D2* is apportioned between the kinetic energies of D', D'', and the photon. The sum of the kinetic energies of D' and D'' can vary from almost zero to the original energy of D2*. If the kinetic energies of D' and D'' are relatively small, the energy of the photon is large, and a shorter wavelength of light is emitted. If the kinetic energies of D' and D'' are relatively large, the energy of the photon is small, and a longer wavelenght of light is emitted. In a population of D2*, a distribution of kinetic energies of D' and D'' will result, allowing for a continuum spectrum to be emitted from the lamp.
DD&A stands for Depreciation, depletion & amortization.