TM71 - Stone Edge - Victory Road 2F
The minimum period of a pendulum, denoted as tmin, is the shortest amount of time it takes for the pendulum to complete one full swing back and forth.
The main advantages are (1) liquid indium compound (2) high vapor pressure (3) high thermal stability (3) single compound and not a solution mixture, (4) stable delivery for indium deposition, and (5) less hazardous indium source. Common solid sources of indium are its salts (like halides and carboxylates). These salts have extremely low vapor pressures, so they are not useful for the deposition of indium metal and semiconductors. TMIn(Trimethylindium) is the preferred solid organometallic indium source for chemical vapour deposition (MOCVD), but getting stable evaporation of TMIn is a big challenge because of its constantly changing surface area. To solve this problem, new liquid source DIPMeIn (Di-Iso-Propyl-Methyl-Indium) is invented. It is reported as organic indium compound with acceptable vapor pressure for MOCVD and higher thermal stability than TMIn.
i go tmin with 3 legendary gems and 1 sapphire . u could also get it with three ultra rare gems (green gems) these combinatios worked for me they may not work for u unless u try
According to SOWPODS (the combination of Scrabble dictionaries used around the world) there are 1 words with the pattern --TMIN-. That is, seven letter words with 3rd letter T and 4th letter M and 5th letter I and 6th letter N. In alphabetical order, they are: catmint
45Check my logic. Draw the Venn diagram. Mark the seven areas S, I, M for those languages only (monoglots); a,b,c for single overlaps (bilingual); T in the middle for trilingual.Tminimum (words "at least") happens at abcmaximum and that happens at SIMminimum , the limit of which is 0 (zero monoglots, all partgoers bilingual).From the diagram,abcT = 100, that is(1) 2abc + 2T = 200Also, from the given(2) abT=80(3) bcT=75(4) acT=90Adding (2...4) we get(5) 2abc + 3T = 245Subtracting (1) we get Tmin = 45
To get Rock Climb (HM08), you must first collect all 16 badges in the game. After you have defeated all 8 Kanto and Johto Gym Leaders, head over to Professor Oak's lab in Pallet Town. He will then give you Rock Climb.To get rock climb in SoulSilver, you must first have all 16 badges. Then, Professor Oak will call you to give you a gift. That gift will be the HM rock climb.It can be obtained from Professor Oak after you beat the trainer named "Blue."u hav to beat all the gym leaders including kanto and proffeser oak will call u and u get itAfter you Beat all the Johto and Kanto gyms go talk to Prof. Oakafter you defeat all the gym leaders in kantogo to prof oak and he will give you the TMIn both Heart Gold and Soul SIlver, You get rock climb by beating blue after you beat blaine. After you beat blue you go talk to professor Oak. and he will give it to you. (:
Convert the volume and pressure to STP using the combined gas law: P1 V1 / T1 = P2 V2 / T2 Once you know how many liters you have at STP (273K and 1 atmosphere), you know the mass of the gas because 22.4L of gas is one mole. Just convert moles back to mass by multiplying by the GMW (atomic weight) for that particular gas. If you know mass and volume, the density is simply mass/volume. PV/RT=n will also find you the moles (n). Say you have 1 Liter of Oxygen at 250K at 1atm. What is its density? * P1 = 1.000atm * P2 = 1.000atm * V1 = 1.000L * V2 = X * T1 = 250.0K * T2 = 273.0K Since pressure is constant, it cancels out of the combined gas law and leaves you with Charles' law (V1 / T1 = V2 / T2): * 1.000L • 273.0K/250.0K = 1.092L * 1.092L of a gas at STP is 0.0488 mol (as long as it behaves ideally) * Oxygen's (O2) GMW is 31.988 grams/mol * 0.0488 mol • 31.988 grams/mol = 1.561 grams * That means that at your original temperature, you had 1.561 grams of a gas that occupied 1 Liter. Its density at that temperature would be 1.561 grams/liter You can shortcut all that if you are holding pressure constant with: GMW • (273K / T1) / 22.4 L/mol = density in grams/liter. If your pressure is changing you'll need to figure that in: GMW • (P1 • 273K / P2 • T1) / 22.4 L/mol = density in grams/liter. DON'T FORGET TO CONVERT YOUR TEMPERATURE TO ABSOLUTE (KELVIN)!!!! All that will only work for gases for which you know the composition (and so you are able to obtain the GMW). If you don't know the composition you will have to find it by experimentation. If the gas ceases to behave ideally (e.g., it condenses at that temperature) the above will also not work.