- Organic Chemistry
- Aldehydes and Ketones
- Alkyl Halides, Alcohols and ethers
- Amines and other nitrogen compounds
- Aromatic Chemistry
- Carbohydrates, Amino acids, protein, Vitamin and Fat
- Carboxylic acids and its derivatives
- Chemistry in daily life
- General Mechanism in organic compounds
- Hydrocarbons
- Nomenclature and isomerism
14 - Atoms and molecules Questions Answers
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At 752 mm Hg of total Pressure and 301 K Temperature 150 ml H2 is produced and collected over the water, when current is passed through acidic water for 1 hour. How many Amp. current should have passed? ( at 301 K temperature, The pressure of water is 28 mm Hg )
A) 0.320 A
B) 310 A
C) 321 A
D) 0.305 A
please mention correct answer.
by formula PV/T = constant
(752-28)*150/301 = 760*V/273
solve for V, this will be the equivalent volume at STP
now convert this volume in gm by the formula 2V/22400
then finally m = zit, where
z = 1/96500
solve it for i
if there are Three Fe+2 For a Fe+3 in FexO, What is the value of x?
3FeO.1Fe2O3 = Fe5O6 = Fe5/6O
the first line in the balmer series in the hydrogen spectrum will have the frequency
f/c = R[ 1/22 - 1/32 ]
R and f are Rydberg constant and frequency
if radius of first bohr orbit of hydrogen atom is X, then de Broglie wavelength of electron in 4 th orbit is
radius of fourth orbit = 16X
now put 2πr = 4λ
Consider about the amount of energy required. It can gain from its surrounding
A hydrogen like system has ionisation enthalpy 11808KJ/mol. find the no of protons in the nucleus of the system?
A hydrogen like system has ionisation enthalpy 11808KJ/mol
on converting it into eV we get [11808*1000]/[6.023*1023*1.6*10-19] = 122.53 eV
now formula for this energy is [-Z2/n2]13.6 eV
for n = 1, Z will be 3
the position of both an electron and a helium atom is known within 1nm. further the momentum of the electron is known within 5*10-26 kgm/s. the minimum uncertainity in the measurement of the momentum of the helium atom is
according to Heisenberg principle product of uncertainity in position and momentum of a particle is greater than or equal to h/4π, since uncertanity in position of both the particle are same so same will be the momentum uncertainty minima.
the frequency of radiation emitted when the electron falls n=4 to n=1 in a hydrogen atom will be (given ionisation energy of H =2.18*I0-18 J/atom )
ans=3.08*1015
for n = 1 E = 2.18*10-18
for n = 4 E = 2.18*10-18/16
so hν = 15*2.18*10-18/16
so ν = 15*2.18*10-18/16*6.634*10-34
so ν = 3.08*1015
A mixture of FeO and Fe304 when heated in air to constant weight gains 5% in its weight. The % of FeO in the sample
let FeO = x gm and FeO+Fe2O3= y gm so FeO = [72/(72+160)]*y and Fe2O3 = [160/(160+72)]*y
2FeO + 1/2O2 ----------> Fe2O3
so amount of Fe2O3 formed by x gm FeO = 160x/144
similarly amount of Fe2O3 formed by [72/(72+160)]*y gm FeO = 160 [72/(72+160)]*y/144
so total Fe2O3 = 160x/144 + 160 [72/(72+160)]*y/144 + [160/(160+72)]*y = 160x/144 + [160*72/232]y/144 + 160y/232
now according to the given condition {[160x/144 + [160*72/232]y/144 + 160y/232}/{x+y) = 105/100
now solve