| NUMBER | PROGRAM NAME | LINK |
| 1 | Use of while loop. | CLICK HERE |
| 2 | Use of for loop. | CLICK HERE |
| 3 | Leapyear checking. | CLICK HERE |
| 4 | Check a number whether it is odd positive,odd negative,even positive,even negative. | CLICK HERE |
| 5 | Find out the factorial of a number. | CLICK HERE |
| 6 | Print fibonacci series. | CLICK HERE |
| 7 | Prime number checking. | CLICK HERE |
| 8 | Print twin prime numbers within a range. | CLICK HERE |
| 9 | Check if a number is prime fibonacci. | CLICK HERE |
| 10 | Check strong number. | CLICK HERE |
Tuesday, November 29, 2016
Unix Shell Programming Example for B.Sc, B.Tech, BCA, MCA
Monday, November 14, 2016
NETWORKING FOROUZAN QUESTION SET
Networking (Forouzan Ch-1) - CLICK HERE
Networking (Forouzan Ch-2) - CLICK HERE
Networking (Forouzan Ch-3) - CLICK HERE
Networking (Forouzan Ch-5) - CLICK HERE
Networking (Forouzan Ch-6) - CLICK HERE
Networking (Forouzan Ch-7) - CLICK HERE
Networking (Forouzan Ch-8)
Networking (Forouzan Ch-9)
Networking (Forouzan Ch-10)
Networking (Forouzan Ch-11)
Networking (Forouzan Ch-12)
to be continued...............
Friday, November 11, 2016
Database Management Questions Set
INTRODUCTION
1. Data vs Information.2. Meta data,Data dictionary , component of data dictionary , active and passive data dictionaries
3. System catalog
4. Field,record,file
5. Components of database
6. DBMS-operations
7. DA, DBA , functions and responsibilities of DBA.
8. Advantage and disadvantage of file oriented system
9. Advantage and disadvantage of DBMS
10. Redundancy, Consistency, Entity integrity , referential integrity,
LANGUAGE
1.DDL
2.DML
3.DCL
4.4GL
5.SDL
5.SDL
ARCHITECTURE
1. Schemas, subschemas, instances
2. two tier architecture, three tier architecture(advantage and disadvantage)
3. ANSI/SPARC architecture
4. Data Independence -i ) logical ii) physical
5. Mapping -i) internal ii) external
6. Centralized DBMS, Parallel DBMS, Distributed DBMS, Client-server DBMS, Data Warehouse ( example ,advantage, disadvantage ).
4. Data Independence -i ) logical ii) physical
5. Mapping -i) internal ii) external
6. Centralized DBMS, Parallel DBMS, Distributed DBMS, Client-server DBMS, Data Warehouse ( example ,advantage, disadvantage ).
DATA MODEL
1. Data model - def
2. Hierarchical model- example ,advantage, disadvantage
3. Network model- example ,advantage, disadvantage
4. Relational model- example ,advantage, disadvantage
5. Object oriented data model - example ,advantage, disadvantage
FILE ORGANISATIONS
1. RAID level
2. Master file,Transaction file
3. Buffer Management.
4. Fixed length record, variable length record- def,example,advantage,disadvantage
5. Heap file organisation - use , advantage , disadvantage
6. Sequential file organisation - use , advantage , disadvantage
7. Indexed sequential file organisation - use , advantage , disadvantage
8. Hash file organisation - use , advantage , disadvantage
9. Dynamic hashing
7. Indexed sequential file organisation - use , advantage , disadvantage
8. Hash file organisation - use , advantage , disadvantage
9. Dynamic hashing
INDEXING
1. Ordered and un-ordered indexing
2. Sparse indexing dense indexing
3. Primary indexing, secondary indexing, cluster indexing
4. Tree based indexing
5. B-tree indexing
6. B+ tree indexing
7. inverted indexing
8. indexing vs hashing
4. Tree based indexing
5. B-tree indexing
6. B+ tree indexing
7. inverted indexing
8. indexing vs hashing
RELATIONAL ALGEBRA AND RELATIONAL CALCULUS
1. domain,tuple
2. key - primary key, super key, candidate key, foreign key ( def , example )
3. Composite key, prime attribute
3. Composite key, prime attribute
4. Relational Algebra : selection , projection , Cartesian product, union, intersection, set difference, join, natural join, outer join, left outer join, right outer join , division ( def, example)
5. Relational Calculus : tuple calculus, domain calculus, comparison with relational algebra
SQL
1. advantage, disadvantage
2. relationally complete
3. create table , update table , delete table
4. modify structure of table, modify values of table
5. difference between varchar and varchar2.
6. date, to_char(),to_date()
7. in.not in
8. Group by, having
9. order by( asc or desc)
10. string functions, like, wildcard characters
11. set functions
12, aggregate functions ( sum,avg,count,....)
13. NULL values
14. Unique constraints
15. join - natural join, theta join, equi join, outer join., left outer join, right outer join.
16. Create view
9. order by( asc or desc)
10. string functions, like, wildcard characters
11. set functions
12, aggregate functions ( sum,avg,count,....)
13. NULL values
14. Unique constraints
15. join - natural join, theta join, equi join, outer join., left outer join, right outer join.
16. Create view
17. PL/SQL
ER Diagram
1. Entities, Relationship, attributes, cardinality , constraints, Entity set(Entity type) , Entity instance.
2. Relationship - degree - unary or recursive, binary, ternary
N-ary relationship
3. simple attribute, single valued attribute, multivalued attribute , composite attribute , stored attribute, derived attribute, identifier attributes
4. Participation constraints
5. Conversion from ER model to realtion
6. ER diagram symbols
7. Super Class and sub class
8. Attribute inheritence , advantage of inheritence
4. Participation constraints
5. Conversion from ER model to realtion
6. ER diagram symbols
7. Super Class and sub class
8. Attribute inheritence , advantage of inheritence
Functional Dependency
1. Functional dependency diagram and examples
2. Partial dependency, Full dependency
3. Armstrong's Axioms for FD
4. Closure of a set of FD
5. Decomposition - lossy and lossless join
6. Dependency preserving decomposition
Normalaization
1. 1NF,2NF, 3NF, BCNF, 4NF, 5NF
2. Multi valued dependencies
3. Join dependencies
4. Spurious tuples.
2. Multi valued dependencies
3. Join dependencies
4. Spurious tuples.
Saturday, November 5, 2016
DATA STRUCTURE
Sorting
1. What do you mean by 'in place' sorting technique?
2. What do you mean by 'stable' sorting technique?
3. Algorithm,C code,Average Case Complexity of Bubble sort.
4. Algorithm,C code,Average Case Complexity of Selection sort.
5. Algorithm,C code,Average Case Complexity of Insertion sort.
6. Algorithm,C code,Average Case Complexity of Radix sort.
7. Algorithm,C code,Average Case Complexity of Merge sort.(recursive and non recursive)
8. Algorithm,C code,Average Case Complexity of Heap sort.
9. Algorithm,C code,Average Case,Worst Case Complexity of Quick sort.(recursive and non recursive)
10. Algorithm of Quick sort using queue.(non-recursive)
10. Algorithm of Quick sort using queue.(non-recursive)
Hashing
1. Why Hashing?
2. How do we pick a good hash function?
3. How do we deal with collisions?
4. Different hashing technique.
5. Linear probing,Chaining.
6. Double hashing.
7. Successful and unsuccessful comparison in linear probing and quadratic probing
8. Algorithm of linear probing,quadratic probing, chaining.
8. Algorithm of linear probing,quadratic probing, chaining.
Friday, November 4, 2016
CHECK CONSTRAINTS
Check
create table employee(eid number primary key , ename
varchar2(30), city varchar2(30),salary number);
0.07 seconds
insert into employee values(1,'ram','kol',20000);
insert into employee values(2,'sam','goa',30000);
insert into employee values(3,'jam','delhi',40000);
create table employee2(eid number , ename varchar2(30) check (ename like
's%'));
Table created
insert into employee2 values(1,'sam');
1 row(s) inserted.
insert into employee2 values(1,'ram');
ORA-02290: check constraint (SYS.SYS_C003999) violated
create table employee3(eid
number , ename varchar2(30), city
varchar2(30) check(city in('kol','goa'))
);
Table created.
0.68 seconds |
insert
into employee3 values(1,'ram','kol');
1 row(s) inserted.
0.07 seconds
insert
into employee3 values(2,'sam','delhi');
ORA-02290: check constraint
(SYS.SYS_C004000) violated
create table employee1(eid number
primary key , ename varchar2(30) check (ename like 's%'), city varchar2(30)
check(city in('kol','goa')),salary number check(salary>20000));
insert into employee1
values(1,'jam','delhi',40000);
ORA-02290: check constraint (SYS.SYS_C003996) violated
|
Monday, September 5, 2016
8085 Microprocessor sample question set THEORY
Gaonkar Chapter 1 - CLICK HERE
Gaonkar Chapter 2 - CLICK HERE
Gaonkar Chapter 3 - CLICK HERE
Gaonkar Chapter 4 - CLICK HERE
GaonkarChapter 5 - CLICK HERE
Gaonkar Chapter 6 - CLICK HERE
Gaonkar Chapter 7 - CLICK HERE
Monday, August 8, 2016
Operating System Question Set
Operating System Question Set
GALVIN
GALVIN
INTRODUCTION: - CLICK HERE
PROCESS: CLICK HERE
THREAD: CLICK HERE
Process synchronisation: CLICK HERE
Memory management. CLICK HERE
File system: CLICK HERE
Disk Scheduling: CLICK HERE
Deadlock: CLICK HERE
Tuesday, July 12, 2016
Basic Electronics Set 2
1. Operation of a pnp transistor, npn transistor
2. Basic circuit for using a pnp transistor as an amplifier
3. Why this is called bipolar transistor?
4.Why this is called current controlled device?
5. Emitter follower.
6. Common-base, common-emitter and common-collector amplifiers
7. Relationship between α and β.
8. Load line analysis,Q-point
9. Describe the operation of a transistor amplifier in CE configuration.
10.Differentiate between FET and BJT transistors.
11. What is the use of biasing? Draw the DC equivalent model.
12. Thermal Runaway, thermal resistance
13. Draw a BJT fixed bias circuit and derive the expression for the stability factor ‘S’.
14.Advantages and disadvantages of fixed bias circuit
15. what is the condition for thermal stability?
16. Explain thermal instability. What are the factors affecting the stability factor?
2. Basic circuit for using a pnp transistor as an amplifier
3. Why this is called bipolar transistor?
4.Why this is called current controlled device?
5. Emitter follower.
6. Common-base, common-emitter and common-collector amplifiers
7. Relationship between α and β.
8. Load line analysis,Q-point
9. Describe the operation of a transistor amplifier in CE configuration.
10.Differentiate between FET and BJT transistors.
11. What is the use of biasing? Draw the DC equivalent model.
12. Thermal Runaway, thermal resistance
13. Draw a BJT fixed bias circuit and derive the expression for the stability factor ‘S’.
14.Advantages and disadvantages of fixed bias circuit
15. what is the condition for thermal stability?
16. Explain thermal instability. What are the factors affecting the stability factor?
Monday, July 11, 2016
Basic Electronics Set 1
1. Conductor , insulator , semiconductor - definition, example.
2. Valence band, conduction band, band gap
3. Intrinsic semiconductor, extrinsic semiconductor, doped semiconductors,doping
4. Hole,doping,Recombination
5. Diffusion and drift, drift current
6. filter,rectifier
7. Characteristics graph of forward biasing,reverse biasing
8.avalanche break down,Zener break down
9. LED
10.Depletion region
11.Diode current equation
12. Half wave rectifier
13.full wave rectifier-center trap,bridge rectifier(with filter and with out filter)
13. ripple factor,PIV,Load current,rectifier efficiency
14. Characteristics of Zener diode
15. Diode as a voltage regulator
2. Valence band, conduction band, band gap
3. Intrinsic semiconductor, extrinsic semiconductor, doped semiconductors,doping
4. Hole,doping,Recombination
5. Diffusion and drift, drift current
6. filter,rectifier
7. Characteristics graph of forward biasing,reverse biasing
8.avalanche break down,Zener break down
9. LED
10.Depletion region
11.Diode current equation
12. Half wave rectifier
13.full wave rectifier-center trap,bridge rectifier(with filter and with out filter)
13. ripple factor,PIV,Load current,rectifier efficiency
14. Characteristics of Zener diode
15. Diode as a voltage regulator
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