I'm not sure about this equation but maybe: m - mass p - power c - could be specific heat capacity 09100 x 10 to the power of 19 or 09100x10^19 is just a short form of a massive number so 09100x10^19 = 09100 0000000000 000000000
-1.36*10^-19
4.8 x 10^-19
The value of an electron's charge is typically simplified to -1e however another more complicated measurement would be -1.602176565(35) x 10 to the power of -19 C.
There are 31.25* 10^18 electrons in 5 c0ulombs
E=hc/l h=plank's constant c=speed of light l=wavelength [(6.626*10^34)(3*10^8)]/(5.50*10^-7)= 3.614*10^-19 for per mole (3.614*10^-19)*(6.022*10^23)= 2.18*10^5 muliply by .001 for kilojoules =2.18*10^2 or just 218 kj/mole
Ten quintillion
the charge on one electron is 1.6*10 to the power -19 1C=6*10to power18 1e=1/6*10 to power 18 =[1/6]*10 to power -18 =0.166666.....*10 to power -18 =1.6[rounded off]*10 to power -19 hence the answer
1 quadtrillion
(1 billion)10 = (19)10 = 190
19
19
1,900,000,000,000,000,000,000,000,000.
19
2.45 x 10^104
119
19
-1.6 x 10^-19 [that's ten raised to the -19 power]. To figure it, there are 18 zeros between the decimal point and the first non-zero (the 1). So moving the decimal to the right 19 places will give you -1.6; since you moved it 19 places, the power of ten is -19 {negative power for numbers magnitude less than one, positive powers of ten for numbers magnitudegreater than 10, and 10^0 for numbers magnitude between 1 and 10}