Answer:Statement 1 and 3 are true
Explanation:
Ca+(g) + e- ➡Ca(g)
Electron affinity of an atom or molecule is defined as the change in energy (in kJ/mole) of a neutral molecule(in gaseous state)when an electron is added to an atom to form a negative ion.Energy is released in the process thus the first electron affinities are negative.
On the other hand ionisation energy is the quantity of an energy a gaseous atom in its ground must absorb to discharge an electron.
H(g)➡H+(g) + e-
Considering both these definitions,statement 1 and 3 both falls true.
Answer:
Option B. 28.5 amu
Explanation:
The following data were obtained from the question:
Isotope A:
Mass of A = 28.0 amu
Abundance (A%) = 14.0%
Isotope B:
Mass of B = 29.0 amu
Abundance (B%) = 66.0%
Isotope C:
Mass of C = 27.4 amu
Abundance (C%) = 20.0%
Atomic mass of element X =.?
The atomic mass of element X can be obtained by using the following formula:
Atomic mass = [(Mass of A × A%)/100] + [(Mass of B × B%)/100] + [(Mass of C × C%)/100]
Atomic mass of Element X = [(28 × 14)/100] + [(29 × 66)/100] + [(27.4 × 20)/100]
= 3.92 + 19.14 + 5.48
= 28.54 ≈ 28.5 amu
Therefore, the atomic mass of Element X is 28.5 amu
Start by looking to the product there that doesn't have coefficient. Need to have exactly 2 Fe on the reactant side. So first coefficient is 2.. having a 2 there gives 2*3 = 6 H on the reactant side. Then in order to have 6 H on the product side the coefficient there needs to be 3. This gives 3 Ca on product side so there must be 3 Ca on reactant side.
coefficients:
2 + 3 --> 1 + 3
Explanation:
(a) The functional group present in an organic compound having the molecular formula C
5
H
10
O
2
is Carboxylic acid group, (−COOH) and its formula is C
4
H
9
COOH
(b) One example each of the compounds having the following functional groups are:
(i) Aldehyde group: Ethanal (CH
3
CHO)
(ii) Alcohol group: Methanol (CH
3
OH)
(iii) Carboxylic acid grou: Ethanoic acid (CH
3
COOH)
(iv) Halo group: Chloromethane (CH
3
Cl)
(c) One example each of the compounds having the following functional groups are:
(i) Alkene group: Ethene (CH
2
=CH
2
)
(ii) Alkyne group: Ethyne (CH≡CH).