Thursday, 13 March 2014

Method of calculating Non-polarized capacitors value

when you are using ceramic non polarize and you do not know its value here is the simplest method of finding out capacitors values in Farad from its number written on each capacitors.
lets explain it in an example
if u have a non polarize capacitor and its marking value written on it is 104 as shown in the figure,

its means that its value of capacitance in Farad(unit) is 
104= 10+4 zeros =10,0000 
that is 104 means that a 10 and four more zeros with it 
so it become 10,0000 which must be in pico farad so 104=100000pF.
   

Wednesday, 5 March 2014

UFO


UFO  means unidentified flying objects , this name referred to an object that fly in the sky whose  identity  cannot be determined. civilian and military research shows sight of UFOS since World War II , but the news of UFO in the sky gain popularity in 1947 when a pilot seen a UFO during his flight. the pilot describe that it looked like a flying saucer or like a disc and after that new many people claim to have seen UFOs in similar in shape. till now ,many theories have been  afloat on the existence and non existence of UFOs, but still the physical proof of its existences has not been verified.

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Sunday, 2 March 2014


skin is the largest organ of our body which is  the outermost layer of our body , healthy skin give you a healthy look , and make you attractive , give shape,and is made of epidermis and dermis layer, these layer protect our body from external environment  and serve is a permeable membrane that allow some useful particle to flow inside our body through it , and stop entering some bigger particle which is harmful to our body, so by using some home make skin care  solution can be easily absorbed and keep it self healthy, skin contain protein gland that secrete protein that make our skin oily and some sweat glands that keep our body temperature normal and play important role in osmoregulation of the body( the maintain of solute and solvent level in a body is called osmoregulation) skin colour and its type depend upon climate and environment temperature , so it is necessary to take care of skin because it is a sensitive organ and can give u better look if you take a care of it-
Most women and man use different oilment and chemical product without examine the skin issue, its disease , or refer to some beautician , its very dangerous to use the chemical without examine your skin , that can make you skin tissue thinner and ageing come earlier ,
skin issue come with different age, season , and with different time of the day.people having oiling skin catch dirt easily due to which pore in the skin block which cause black circle ,acne etc people need to take bath or wash face and hands again and again due to oily skin , environmental pollution is increasing day by day that has a verse effect on skin 
i this article i am trying to explain you all the method of making home made skin care solution that will remove greasy nature of your  skin and will keep your skin healthy, this is specially for women
for healthy skin use these step
1-wash your skin three time a day to remove the oil from it and protect your skin from acne , blocking of pore, remove dirt etc ,  use soap or some face wash two time a day ,and wash your face with warm water in cold weather , after washing your face with water clean it with a clean soft towel 
some homemade beauty tip can also help in removing your skin oil, and keep it fresh
for healthy and fresh skin take a 20gm of glycerin and 10 lemon , mix the glycerin in the lemon water along with the seeds of lemon and keep it in open place for two days , after two day your homemade skin care solution will be ready , wash your skin with soap and apply home made lemon glycerin solution to it , 
apply this two time a day ,one time in the morning and one time before sleep, skin must be wash with soap before using this each time , this will not allow the dirt particle to enter into skin pore and lemon will keep your skin healthy, glycerin lemon solution can also as a sun block that  will protect your skin from UV radiation , vitamin  c in the lemon will be absorbed in the pore of the skin , which help in keeping your skin healthy , you can also use orange instead of lemon , quantity of lemon juice or orange juice must be in such amount that neither keep your glycerin viscous nor too thinner ,
by taking fruits that are vitamin c richer egg orange , and natural cow milk can also keep your healthy
similarly to prevent your skin mix almond oil instead of glycerin with few drop of lemon or orange juice and apply it to your face , keep doing this for a month and you will see the result
 dear reader if u want to know more about it , u can ask here in comments box or can mail me directly, homemade almond lemon skin care solution , glycerin orange solution is available with us , if some one need it can order on my mail  muradalishah57@yahoo.com 
for more information call on +923329473428

zeppelin



zeppelin, is the most awesome wonder of 20th century , it is a gas filled airship ,  and it was name on the base of its pioneer name count Ferdinned von Zeppelin. difference between  other airship and Zeppelin is its metal alloy skeleton , and due to this alloy skeleton its able Zeppelin to carry heavy load and fitted with a more powerful engine,
the first Zeppelin , named LZI , flown in the year 1900, this was the birth of modern airplanes.
in world war 1 .
 zeppelins were used by militry , the biggest ever made was by Hindenburg and its size was almost the size of Titanic.

dear friends to know more about Zeppelin click these links below 
 dear friends and readers follow us to know more about technologies and to know more about wounder of the worlds.

Saturday, 1 March 2014

Concorde a wounder of technology


concord is a  turbojet-powered supersonic passenger air craft , was first launched in the year 1969 and was the product of Anglo-French collaboration, its top speed is 1350 mph and retired in 2003, concord start its regular services in 1976, a fleet of 20 such aircraft served for 27 years, stunning one and all with its record breaking speed, flying long distance routes at less than half  the time taken by other aircraft , its become very favourite of business tycoons and celebrities alike, as flying in it was  a time saving. its manufacturer are BAC and Sud_Aviation
until now concorde remain an icon of aviation and that why everything which move fast is name is concorde
for further studies follow these links 

Sunday, 23 February 2014

Temperature sensor (engineering project) digital thermometer


A digital thermometer can be made by interfacing a temperature sensor to a micro controller AT89C51, the temperature sensor used in this project is LM35. the variation in temperature is converted into to 10mV voltage signal that is received by analogue to digital convertor IC ADC0804 which convert it into 8-bit binary data, and serves as an input to the AT89C51. the LCD interfaced with other port of micro controller display the temperature in Fahrenheit.
project layout and the use of ic


LM35:

It is basically a transducer – a device used to convert some physical quantity in to some measurable electrical quantity for example current, voltage, capacitance or inductance depending on the circumstances. LM35 that is used in this project comes in an IC package. It has 3 pins. 2 are used for the power supply while the remaining one is used to pass on the voltage difference of 10mV produced by varying quantity. So its resolution is 10mV. The temperature in it directly proportional to change in temperature so any change in temperature is only detected if it hits the 10mV limit otherwise no change is experienced.

ADC0804:

 is a very commonly used 8-bit analog to digital convertor. It is a single channel IC, i.e., it can take only one analog signal as input. The digital outputs vary from 0 to a maximum of 255. The step size can be adjusted by setting the reference voltage at pin9. When this pin is not connected, the default reference voltage is the operating voltage, i.e., Vcc. The step size at 5V is 19.53mV (5V/255), i.e., for every 19.53mV rise in the analog input, the output varies by 1 unit. To set a particular voltage level as the reference value, this pin is connected to half the voltage. For example, to set a reference of 4V (Vref), pin9 is connected to 2V (Vref/2), thereby reducing the step size to 15.62mV (4V/255). ADC0804 needs a clock to operate. The time taken to convert the analog value to digital value is dependent on this clock source. An external clock can be given at the Clock IN pin. ADC 0804 also has an inbuilt clock which can be used in absence of external clock. A suitable RC circuit is connected between the Clock IN and Clock R pins to use the internal clock.

16x2 LCD Display:

CD (Liquid Crystal Display) screen is an electronic display module and find a wide range of applications. A 16x2 LCD display is very basic module and is very commonly used in various devices and circuits. These modules are preferred over seven segments and other multi segment LEDs. The reasons being: LCDs are economical; easily programmable; have no limitation of displaying special & even custom characters (unlike in seven segments), animations and so on.

A 16x2 LCD means it can display 16 characters per line and there are 2 such lines. In this LCD each character is displayed in 5x7 pixel matrix. This LCD has two registers, namely, Command and Data.
The command register stores the command instructions given to the LCD. A command is an instruction given to LCD to do a predefined task like initializing it, clearing its screen, setting the cursor position, controlling display etc. The data register stores the data to be displayed on the LCD. The data is the ASCII value of the character to be displayed on the LCD. Click to learn more about internal structure of a LCD.


Working: 

AT89C51 from the family of 8051 is used as a microcontroller in this embedded system application. Its port 1 is used an input port in order to fetch data from ADC0804. The received data is then converted into ASCII in order to be displayed at the 16x2 LCD which is interfaced at the port 2 of the AT89C51.

Links for detail 

digital thermometer
2  google images of digital thermometer
list of temperature sensor

Saturday, 22 February 2014

To measure phase voltages and currents in a three phase system(engineering students lab report)

Required Components:

AC voltage sources (Vac), resistors (R), voltmeters (Vprint2), ammeters (Iprint), ground (EGnd), and connecting wires.

Circuit Diagram

 this circuit diagram is drawn in pspice  software,you can download free software by clicking links below, to know more about pspice circuit software follow the links below

 

Procedure:

Open Schematics.
Go to get new parts, select and place the required parts. 
Place the components in their appropriate position and if necessary rotate by cntr+r.
Click on draw wire and connect all the elements.
Configure the values of all the placed elements.
Go to analysis, check AC sweep, open it, set total points to 1 and also set the frequency to 50 Hz.
Saves the circuit.
Go to analysis and simulate the circuit.
Go to analysis and examine the results.

Results

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch
 ****     CIRCUIT DESCRIPTION
******************************************************************************
* Schematics Version 9.1 - Web Update 1
* Sun Jan 01 20:02:06 2012
** Analysis setup **
.ac LIN 1 50 50
.OP 
* From [PSPICE NETLIST] section of pspiceev.ini:
.lib "nom.lib"
.INC "11.net"
**** INCLUDING 11.net ****

* Schematics Netlist *


V_VAB         $N_0001 $N_0002 DC 0V AC 10V 0
V_PRINT2         $N_0003 $N_0004 0V

.PRINT        AC 
+ IM(V_PRINT2) 
+ IP(V_PRINT2)    
V_PRINT3         $N_0002 $N_0005 0V
          
.PRINT        AC 
+ IM(V_PRINT3) 
+ IP(V_PRINT3)    
           
.PRINT         AC 
+ VM([$N_0006],[0]) 
+ VP([$N_0006],[0])    
           
.PRINT         AC 
+ VM([$N_0004],[0]) 
+ VP([$N_0004],[0])    
R_RAB         $N_0001 $N_0007  1u  
R_RCA         $N_0008 $N_0007  1u  
R_RaN         0 $N_0006  1k  
R_RbN         $N_0005 0  1k  
R_RcN         $N_0004 0  1k  
           
.PRINT         AC 
+ VM([$N_0005],[0]) 
+ VP([$N_0005],[0])    
V_PRINT1         $N_0007 $N_0006 0V
          
.PRINT        AC 
+ IM(V_PRINT1) 
+ IP(V_PRINT1)    
R_RBC         $N_0002 $N_0009  1u  
V_VBC         $N_0009 $N_0003 DC 0V AC 10V -120
V_VCA         $N_0003 $N_0008 DC 0V AC 10V 120

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch
 ****     SMALL SIGNAL BIAS SOLUTION       TEMPERATURE =   27.000 DEG C
******************************************************************************
 NODE   VOLTAGE     NODE   VOLTAGE     NODE   VOLTAGE     NODE   VOLTAGE
($N_0001)    0.0000                   ($N_0002)    0.0000                       

($N_0003)    0.0000                   ($N_0004)    0.0000                       

($N_0005)    0.0000                   ($N_0006)    0.0000                       

($N_0007)    0.0000                   ($N_0008)    0.0000                       

($N_0009)    0.0000                   

    VOLTAGE SOURCE CURRENTS
    NAME         CURRENT

    V_VAB        0.000E+00
    V_PRINT2     0.000E+00
    V_PRINT3     0.000E+00
    V_PRINT1     0.000E+00
    V_VBC        0.000E+00
    V_VCA        0.000E+00

    TOTAL POWER DISSIPATION   0.00E+00  WATTS

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch
 ****     OPERATING POINT INFORMATION      TEMPERATURE =   27.000 DEG C
******************************************************************************

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch

 ****     AC ANALYSIS                      TEMPERATURE =   27.000 DEG C
******************************************************************************

  FREQ        IM(V_PRINT2)IP(V_PRINT2)
   5.000E+01   5.774E-03   9.000E+01

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch
 ****     AC ANALYSIS                      TEMPERATURE =   27.000 DEG C
******************************************************************************


  FREQ        IM(V_PRINT3)IP(V_PRINT3)
   5.000E+01   5.774E-03  -1.500E+02

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch
 ****     AC ANALYSIS                      TEMPERATURE =   27.000 DEG C
******************************************************************************

  FREQ        VM($N_0006,0)VP($N_0006,0)
   5.000E+01   5.774E+00  -3.000E+01

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch
 ****     AC ANALYSIS                      TEMPERATURE =   27.000 DEG C
******************************************************************************

  FREQ        VM($N_0004,0)VP($N_0004,0)
   5.000E+01   5.774E+00   9.000E+01

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch
 ****     AC ANALYSIS                      TEMPERATURE =   27.000 DEG C
******************************************************************************

  FREQ        VM($N_0005,0)VP($N_0005,0)
   5.000E+01   5.774E+00  -1.500E+02

**** 01/01/12 20:02:09 *********** Evaluation PSpice (Nov 1999) **************
 * D:\pluto's projects\ckt lab rpt\11.sch
 ****     AC ANALYSIS                      TEMPERATURE =   27.000 DEG C
******************************************************************************

  FREQ        IM(V_PRINT1)IP(V_PRINT1)
   5.000E+01   5.774E-03  -3.000E+01
JOB CONCLUDED
TOTAL JOB TIME             .02

          

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