129°f = 53.9°c
129 degrees Fahrenheit = 53.9 degrees Celsius [°C] = ([°F] − 32) × 5⁄9
its a big bllooan fdfdfdfdff
Well, we would have to know how many % of the coding sequence would be exons and introns, but let's ignore this and assume 100% of the sequence are exons;129 aminoacids = 129 codons = 129*3 nucleotides = 387 nucleotides.10 pairs of bases = 3,4 nm;387/10 = 38,738,7 * 3,4 = 131,58 nm.
An aluminum cookie sheet would not be a great idea. Aluminum has a specific heat of .900 J/g° Celsius. Specific heat is the heat an object has to get to before it starts actually heating up, so the higher the specific heat the harder it is to heat up. To have a comparison Gold, the best conducter metal, has a specific heat of .129 J/g° Celsius, and Water has a specific heat of 1.000 J/g° Celsius. Aluminum's specific heat is so high you might as well be baking cookies in water... if that were possible. Aside from that, if aluminum had a lower specific heat it would be great for a cookie sheet. It doesn't rust, its cheap (.05$ per oz), it doesn't explode while in contact with air or water (like potassium), and it generally lasts over a lifetime. But because the specific heat is so high, there's really no point in using it as a cookie sheet. I suggest copper.
Interestly, a neutron is a proton + an electron. So, when an atom captures an electron, one of its protons becomes a neutron. Now it has 1 more neutron, but 1 less proton; making the it an atom of the element with atomic number 1 less than the original atom. The total number of protons and neutrons remains the same. Xe- 129 + e-1 = I- 129
No, -129 degrees Fahrenheit is equal to -89.44 degrees Celsius.
-89.4 repeating degrees Celsius.
264.20000000000004 degrees fahrenheit
-48
129 degrees Fahrenheit = 53.9 degrees Celsius [°C] = ([°F] − 32) × 5⁄9
50/50 mix with 15 P.S.I. rad cap ( 265 degrees Fahrenheit / 129 degrees celsius )
50/50 mix with 15 P.S.I. rad cap ( 265 degrees Fahrenheit / 129 degrees celsius )
An angle of 129 degrees is an obtuse angle
Exactly (minus) -129°F is equal to -89.44°C The conversion formula is °C = 5/9 (°F - 32)
A pair of supplementary angles add up to 180 degrees. Therefore, the supplement to a 129 degree angle is equal to 180 - 129 = 51 degrees.
263 degrees
both poles are about -112 degrees to -129 degrees.