Tag Archives: beautiful engineer

Write a c program to find HCF and LCM for three numbers

#include<stdio.h>

#include<conio.h>

void main()

{

int a,b,c,H,L;

printf(“Enter three integer : “);

scanf(“%d %d %d”,&a,&b,&c);

if(a<b)
{

for(H=(a=1;H–)
{

if(a%H==0 && c%H==0)

break;
}

printf(“HCF is:%d”,H);

}

if(b<a)
{

for(H=(b=1;H–)
{

if(b%H==0 && c%H==0)

break;
}

printf(“HCF is:%d”,H);
}
{
for(L=1;L<=abc;L++)

if(L%a==0 && L%b==0 && L%c==0)

break;
printf(“\nLCM is: %d”,L);
}
}

IUPAC Nomenclature of Coordination Complexes


The International Union of Pure and Applied Chemistry(IUPAC) publication
Nomenclature of Inorganic Chemistry(1989), Blackwell Scientific Publishers,
contains the rules for the systematic naming of coordination compounds.

The basic rules are summarized here:


(1) Cationic part is named first followed by anionic part.
e.g K4[Fe(CN)6] 4K+ + [Fe(CN)6]4—
Here K+ is positive(cationic) part. So the name is Potassium hexacyanoferrate(II)


(2) Non-ionic or molecular complexes are given one word name.
e.g. in above complex hexacyanoferrate(II) is one word name.


(3) Naming of complexes starts from capital letter followed by small letter.
e.g. Potassium hexacyanoferrate(II) , Hexaamminecobalt(III) chloride.


(4) When writing the name of a complex, the ligands are quoted in alphabetical
order, regardless of their charges followed by central metal.
e.g. [CoCl(NH3)5]2+ Pentaamminechlorocobalt(III) ion
If the complex is represented by cation or anion, the word “ion” is written in the last.


(5) When writing the formula of complexes, the complex ion should be enclosed by square brackets. The metal is named first, then the coordinated groups are listed in the order: negative ligands, neutral ligands, positive ligands (and alphabetically according to the first symbol within each group).


(i) The names of negative ligands ends in -o, for example
F— fluoro H— hydrido HS— mercapto Cl-Chloro
OH— hydroxo S2— thio O2— oxo CN—Cyano
Br— Bromo O2
2— peroxo SO4
2—sulphato SO3
2— sulphito
NO3—nitrato


(ii) Neutral ligands have no special endings. Examples:
H2O = aqua, NH3 = ammine, O2 = dioxygen, CO= carbonyl, NO= nitrosyl
Organic ligands are usually given their common names as: phenyl, methyl, ethylenediamine, pyridine, triphenylphosphine.


(iii)Positive ligands end in -ium, examples:
NH2—NH2 hydrazinium, NO2 + nitronium


(6) Where there are several ligands of the same kind, the prefexes di-, tri- tetra￾are used to show the number of the ligands of that type. But the name of the ligand includes a number like -dipyridyl, ethylenediammine. In this case, bis-,
tris- , tetrakis-, pentakis- are used to avoid confusion and the name of the
ligand is enclosed in square brackets. Examples:
[Fe(C5H5)2] = Bis(cyclopentadienyl)iron(II)


(7) The oxidation state of the central metal is shown by a Roman numeral in brackets immediately following its name, example:-titanium(III)


(8) Complex positive ions and neutral molecules have no special ending but
complex negative ions end in -ate. Example:-
[CoCl(NH3)5]2+ Pentaamminechlorocobalt(III) ion
[Fe(CN)6]4— Hexacyanoferrate(II) ion


(9) If there are several ligands of different kind, they are named alphabetically
despite of the number. Examples:
K2[Cr(CN)2O2(O2)NH3] Potassium amminedicyanodioxoperoxochromate(vI)
Some Examples
Write IUPAC names of the given examples.


(i) [Ni(CO)4]0
Tetracarbonylnickel(0)


(ii) K4[Fe(CN)6] Potassium hexacyanoferrate(II)


(iii) Na[Ag(CN)2] Sodium dicyanosilver(I)


(iv) K2[HgI4 ] Potassium tetraiodomercurate(II)


(v) Na3[Al(C2O4)3] Sodium trioxalatoaluminate(III)


(vi) [Co(NH3)2(en)2]Cl3 Diamminebis(ethylenediamine)cobalt(III) chloride


(vii) K3[Fe(C2O4)3] Potassium trioxalatoferrate(III)


(viii) [Co(NH3)5SO4]Br Pentaamminesulphatocobalt(III) bromide


(ix)[Cr(H2O)6]2+ Hexaaquachromium(II) ion


(x) [Ni(CN)4]2— Tetracyanonickelate(II) ion


(xi)[Fe(H2O)6 ]SO4 Hexaaquairon(II) sulphate


(xii)[Pt(Py)4] [PtCl4] Tetrapyridine platinum(II) tetrachloroplatinate(II)

Complex Compound

Why the brake drums of a car are heated when it moves down a hill at constant speed?

When the speed of car moving down the hill remains constant, its kinetic energy remains same. The gravitational potential energy is converted into internal energy of brake drums. This causes heating of brake drums.

Parts if brake drum of car.
Joined brake drum.

Generation of Programming Languages

Programming languages have been developed over the year in a phased manner. Each phase of developed has made the programming language more user-friendly, easier to use and more powerful. Each phase of improved made in the development of the programming languages can be referred to as a generation. The programming language in terms of their performance reliability and robustness can be grouped into five different generations,

1. First generation languages (1GL)
2. Second generation languages (2GL)
3. Third generation languages (3GL)
4. Fourth generation languages (4GL)
5. Fifth generation languages (5GL)

Examples of programming languages.

Why a cricketer lowers his hands while catching a ball?

Initially, the ball is moving with a certain velocity and the player has to apply a retarding force to bring the ball to rest in his hand. As change in momentum dP = F × dt, if he abruptly catches the ball; i.e. dt is small, then he will have to apply a large retarding force due to which he gets hurt.  If he lowers his hands, he would have to apply the smaller force for longer time to bring the ball to rest. Hence he would not get hurt.

What is reaction mechanism?

The detailed step by step description of a chemical reaction is called reaction mechanism.
Substrate + reagent -> intermediate -> product
*Substrate:- The reactant molecule which is attacked by any reagent.
*Reagent:- The attacking species eg. Electrophiles, Nucleophiles, Free Radicals, etc.

Example of reaction.
Example of mechanism of organic reaction.