MDCA (Master Diploma In Computer Application) : Full Form, Eligibility, Duration, Syllabus, Scope

What is the MDCA course?

The Master Diploma in Computer Application (MDCA) is a professional diploma course that helps you learn both basic and advanced computer skills. It is designed for students, job seekers, and working professionals who want to improve their knowledge of computers and information technology. MDCA full form is Master Diploma in Computer Application (MDCA). This course covers practical topics like using Microsoft Office, programming, web design, accounting software, and internet tools. It is a good option for those who want to get a job in an office, start a career in IT, or continue with higher studies in the computer field. The MDCA computer course is easy to understand and useful in many real-life situations.

What is the use of MDCA?

The Master Diploma in Computer Application (MDCA) is a professional, career-oriented diploma that provides comprehensive computer education. It benefits students, job seekers, and professionals who want to build strong technical skills for various IT, business, education, and administration roles.

Who Should Take MDCA?

Students wanting a career in IT

Job seekers needing computer skills

Small business owners

Teachers or office staff upgrading digital literacy

MDCA Computer Course Syllabus

No.Title of the Subject1.     Computer organization2.     Operating system concepts using windows and Linux3.     Personal computer software tools (MS Word,MS Excel and Power Point)4.     Programming in c5.     Object oriented programming through c++6.     Open office7.     Lab – I (MS Office)8.     Lab – III (C and C++)9.     Database management system using SQL,PL/SQL and Oracle10.   Visual programming languages using VB11.   Java Programming and Internet Applications12.   Computer networks13.   Lab -I (Oracle)14.   Lab I (VB)15.   Lab -III (Java)16.   Seminar17.   Project and viva

Why Choose the MDCA Course?

1. Comprehensive Curriculum Covering Diverse IT Domains

The MDCA program encompasses a wide range of subjects, including:

Computer Fundamentals

Operating Systems (Windows, Linux)

Office Automation Tools (MS Word, Excel, PowerPoint)

Programming Languages (C, C++, Java)

Database Management Systems (SQL, Oracle)

Web Designing (HTML, CSS, JavaScript)

Accounting Software (Tally ERP)

Desktop Publishing (Photoshop, CorelDRAW)

Basic Hardware and Networking

This extensive curriculum ensures that students gain practical knowledge applicable to various IT sectors.

2. Eligibility and Duration

Eligibility: Candidates who have completed their 10th or 12th grade can enroll, making it accessible to a broad audience.

Duration: The course duration varies between 12 to 24 months, allowing students to choose a pace that suits their schedule.

3. Enhanced Employability

Completing the MDCA course opens doors to various job opportunities, such as:

Computer Operator

Data Entry Operator

Web Designer

Junior Programmer

IT Support Technician

Graphic Designer

The practical skills acquired make candidates suitable for roles in both private and public sectors.

4. Cost-Effective Learning

The MDCA course is quite affordable, with fees usually ranging from ?12,000 to ?24,000, depending on the institute you choose. This makes it a budget-friendly way to learn important computer and IT skills. For many people, it’s a smart choice because it offers good value for the money and helps build useful skills for jobs or further education in the field of computers.

5. Foundation for Advanced Studies

The knowledge gained from the MDCA course serves as a solid foundation for pursuing higher education in computer applications, such as:

Bachelor of Computer Applications (BCA)

Master of Computer Applications (MCA)

Post Graduate Diploma in Computer Applications (PGDCA)

This progression can lead to more specialized roles in the IT industry.

68P Launch and Dock Delay:  68P was planned for launch at 04:30 AM Central time, but the launch was aborted during final countdown.  Russian teams are looking into the cause of the abort.  The next launch opportunity is Saturday morning at 03:47 AM Central, with docking two days later on Monday morning. Multi-Omics Sample Collections: A 52S crewmember collected saliva samples and completed a questionnaire for the Japan Aerospace Exploration Agency (JAXA) Multi-Omics experiment. The samples were placed into the Minus Eighty Degree Celsius Laboratory Freezer for ISS (MELFI). The Multi-omics analysis of human microbial-metabolic cross-talk in the space ecosystem (Multi-Omics) investigation evaluates the impacts of space environment and prebiotics on astronauts’ immune function, by combining the data obtained from the measurements of changes in the gut microbiological composition, metabolites profiles, and the immune system. Combustion Integrated Rack (CIR) Maintenance: The crew performed maintenance activities in the CIR by replacing a window and the CIR Interface Resource Ring (IRR) vent filter inside the combustion chamber due to fuel and combustion by-product buildup. The CIR is used to perform combustion experiments in microgravity. The CIR can be reconfigured easily on orbit to accommodate a variety of combustion experiments. It consists of an optics bench, a combustion chamber, a fuel and oxidizer management system, environmental management systems, and interfaces for science diagnostics and experiment specific equipment. Combustion Integrated Rack (CIR) Configuration for Advanced Combustion via Microgravity Experiments (ACME): The crew continued to conduct ACME insertion configurations that began yesterday, by disconnecting water umbilicals at CIR Z-Panel to remove water pressure from the rack and then remove the Multi-user Droplet Combustion Apparatus (MDCA) Chamber Insert Assembly (CIA) from the CIR combustion chamber for the final time. The ACME chamber insert for the first set of test points was configured and connected into the CIR combustion chamber.  After the water umbilicals were reconnected to Z-Panel, the crew checked for leaks. The ACME investigation is a set of five independent studies of gaseous flames to be conducted in the CIR. ACME’s primary goal is to improve fuel efficiency and reduce pollutant production in practical combustion on Earth. Its secondary goal is to improve spacecraft fire prevention through innovative research focused on materials flammability.  Fine Motor Skills (FMS): A 51S crewmember conducted a Flight Day 75 FMS session executed on a touchscreen tablet, where the subject performed a series of interactive tasks. The investigation studies how fine motor skills are affected by long-term microgravity exposure, different phases of microgravity adaptation, and sensorimotor recovery after returning to Earth gravity. The goal of FMS is to answer how fine motor performance in microgravity trends/varies over the duration of a six-month and year-long space mission; how fine motor performance on orbit compares with that of a closely matched participant on Earth; and how performance trends/varies before and after gravitational transitions, including the periods of early flight adaptation, and very early/near immediate post-flight periods. Veg-03 Operations: The crew checked and photo documented the status of the plants in the Veggie facility, and evaluated the plant pillows to determine if additional watering was required. The Veg-03 investigation uses the Veggie plant growth facility to cultivate a type of cabbage, lettuce and mizuna which are harvested on-orbit with samples returned to Earth for testing.  Organisms grow differently in space, from single-celled bacteria to plants and humans. Future long-duration space missions will require crew members to grow their own food, so understanding how plants respond to microgravity is an important step toward that goal. Veg-03 uses the Veggie plant growth facility to cultivate a type of cabbage, lettuce and mizuna which are harvested on-orbit with samples returned to Earth for testing. USOS Extra-Vehicular Activity (EVA) #46 Preparations:  Today the crew reconfigured necessary EVA tools and resized an EVA Mobility Unit (EMU) in support of next week’s EVA.  The goals of this EVA include Removal and Replacement (R&R) of the degraded CP13 camera and lubrication of the Latching End Effector (LEE) B. Today’s Planned Activities All activities were completed unless otherwise noted. Multi Omics Saliva Operations Multi Omics Saliva sample MELFI Insertion Multi Omics Question KUBIK Temperature Logger Deinstallation KUBIK Temperature Adjustment to 38°C ISS Crew and ГОГУ (RSA Flight Control Team) Weekly Conference USOS Window Shutter Close ISS HAM Radio Power Down Extravehicular Activity (EVA) Tool Configuring Inventory Management System (IMS) conference Treadmill 2 (T2) Exercise Video Equipment Setup Fine Motor Skills Experiment Test – Subject Vacuum Cleaning ВД1 and ВД2 air ducts in MRM2 Photography of the БД-2 treadmill belt edge and screen form of Belt tab Progress 436 [AO] Cargo Transfers and IMS Ops At Home In Space Culture Photo СОЖ Maintenance ACME Insertion Configuration CIR Window Replacement In Flight Maintenance (IFM) Waste and Hygiene Compartment (WHC) Pre-Treat Tank and Dose Pump Remove & Replace Monitoring shutter closure on windows 6, 8, 9, 12, 13, 14. EML Reprogramming Cable installation CIR Vent Filter Replacement MPEG2 Multicast Test via Ku-band (Activation/Deactivation of TV data and MPEG2 Multicast controls). Tagup with specialists Preparation for Progress 437 Docking Fluids Integrated Rack Hardware Gather Progress 437 Docking to DC1 Activation of MPEG2 Multicast TV Monitoring Equipment. Tagup with specialists Combustion Integrated Rack Front End Cap Close Extravehicular Mobility Unit (EMU) Long Life Battery (LLB) Terminate Activation of mpeg2 multicast video recording mode Combustion Integrated Rack Rack Doors Close VEG-03 Plant Photo Closing Applications and Downlink of MPEG2 Multicast Video via OCA Combustion Integrated Rack Hardware Return Health Maintenance System (HMS) Spaceflight Cognitive Assessment Tool for Windows (WinSCAT) Test CHeCS Rack stowage reconfiguration BIOPLENKA. Installation of Thermostat ТБУ-В No.05 In Flight Maintenance (IFM) Waste and Hygiene Compartment (WHC) Full Fill EML Reprogramming Cable removal PRODUTSENT. ТБУ-В No.2 Incubator Setup Progress 436 [AO] Stowage for Disposal and IMS Ops BIOPLENKA. Installation of Cryogem-03 Extravehicular Mobility Unit (EMU) Resize Water Recovery System Waste Water Tank Drain Emergency RS ISS VHF-1 Comm Checkout from USOS IMS Update Regenerative Environmental Control and Life Support System (RGN) Wastewater Storage Tank Assembly (WSTA) Fill Flight Director/ISS CREW CONFERENCE CONTENT. Experiment Ops  Completed Task […] October 12, 2017 at 10:00AM from NASA https://go.nasa.gov/2yhW1FK via IFTTT

ISS Daily Summary Report – 10/12/2017

68P Launch and Dock Delay:  68P was planned for launch at 04:30 AM Central time, but the launch was aborted during final countdown.  Russian teams are looking into the cause of the abort.  The next launch opportunity is Saturday morning at 03:47 AM Central, with docking two days later on Monday morning. Multi-Omics Sample Collections: A 52S crewmember collected saliva samples and completed a questionnaire for the Japan Aerospace Exploration Agency (JAXA) Multi-Omics experiment. The samples were placed into the Minus Eighty Degree Celsius Laboratory Freezer for ISS (MELFI). The Multi-omics analysis of human microbial-metabolic cross-talk in the space ecosystem (Multi-Omics) investigation evaluates the impacts of space environment and prebiotics on astronauts’ immune function, by combining the data obtained from the measurements of changes in the gut microbiological composition, metabolites profiles, and the immune system. Combustion Integrated Rack (CIR) Maintenance: The crew performed maintenance activities in the CIR by replacing a window and the CIR Interface Resource Ring (IRR) vent filter inside the combustion chamber due to fuel and combustion by-product buildup. The CIR is used to perform combustion experiments in microgravity. The CIR can be reconfigured easily on orbit to accommodate a variety of combustion experiments. It consists of an optics bench, a combustion chamber, a fuel and oxidizer management system, environmental management systems, and interfaces for science diagnostics and experiment specific equipment. Combustion Integrated Rack (CIR) Configuration for Advanced Combustion via Microgravity Experiments (ACME): The crew continued to conduct ACME insertion configurations that began yesterday, by disconnecting water umbilicals at CIR Z-Panel to remove water pressure from the rack and then remove the Multi-user Droplet Combustion Apparatus (MDCA) Chamber Insert Assembly (CIA) from the CIR combustion chamber for the final time. The ACME chamber insert for the first set of test points was configured and connected into the CIR combustion chamber.  After the water umbilicals were reconnected to Z-Panel, the crew checked for leaks. The ACME investigation is a set of five independent studies of gaseous flames to be conducted in the CIR. ACME’s primary goal is to improve fuel efficiency and reduce pollutant production in practical combustion on Earth. Its secondary goal is to improve spacecraft fire prevention through innovative research focused on materials flammability.  Fine Motor Skills (FMS): A 51S crewmember conducted a Flight Day 75 FMS session executed on a touchscreen tablet, where the subject performed a series of interactive tasks. The investigation studies how fine motor skills are affected by long-term microgravity exposure, different phases of microgravity adaptation, and sensorimotor recovery after returning to Earth gravity. The goal of FMS is to answer how fine motor performance in microgravity trends/varies over the duration of a six-month and year-long space mission; how fine motor performance on orbit compares with that of a closely matched participant on Earth; and how performance trends/varies before and after gravitational transitions, including the periods of early flight adaptation, and very early/near immediate post-flight periods. Veg-03 Operations: The crew checked and photo documented the status of the plants in the Veggie facility, and evaluated the plant pillows to determine if additional watering was required. The Veg-03 investigation uses the Veggie plant growth facility to cultivate a type of cabbage, lettuce and mizuna which are harvested on-orbit with samples returned to Earth for testing.  Organisms grow differently in space, from single-celled bacteria to plants and humans. Future long-duration space missions will require crew members to grow their own food, so understanding how plants respond to microgravity is an important step toward that goal. Veg-03 uses the Veggie plant growth facility to cultivate a type of cabbage, lettuce and mizuna which are harvested on-orbit with samples returned to Earth for testing. USOS Extra-Vehicular Activity (EVA) #46 Preparations:  Today the crew reconfigured necessary EVA tools and resized an EVA Mobility Unit (EMU) in support of next week’s EVA.  The goals of this EVA include Removal and Replacement (R&R) of the degraded CP13 camera and lubrication of the Latching End Effector (LEE) B. Today’s Planned Activities All activities were completed unless otherwise noted. Multi Omics Saliva Operations Multi Omics Saliva sample MELFI Insertion Multi Omics Question KUBIK Temperature Logger Deinstallation KUBIK Temperature Adjustment to 38°C ISS Crew and ГОГУ (RSA Flight Control Team) Weekly Conference USOS Window Shutter Close ISS HAM Radio Power Down Extravehicular Activity (EVA) Tool Configuring Inventory Management System (IMS) conference Treadmill 2 (T2) Exercise Video Equipment Setup Fine Motor Skills Experiment Test – Subject Vacuum Cleaning ВД1 and ВД2 air ducts in MRM2 Photography of the БД-2 treadmill belt edge and screen form of Belt tab Progress 436 [AO] Cargo Transfers and IMS Ops At Home In Space Culture Photo СОЖ Maintenance ACME Insertion Configuration CIR Window Replacement In Flight Maintenance (IFM) Waste and Hygiene Compartment (WHC) Pre-Treat Tank and Dose Pump Remove & Replace Monitoring shutter closure on windows 6, 8, 9, 12, 13, 14. EML Reprogramming Cable installation CIR Vent Filter Replacement MPEG2 Multicast Test via Ku-band (Activation/Deactivation of TV data and MPEG2 Multicast controls). Tagup with specialists Preparation for Progress 437 Docking Fluids Integrated Rack Hardware Gather Progress 437 Docking to DC1 Activation of MPEG2 Multicast TV Monitoring Equipment. Tagup with specialists Combustion Integrated Rack Front End Cap Close Extravehicular Mobility Unit (EMU) Long Life Battery (LLB) Terminate Activation of mpeg2 multicast video recording mode Combustion Integrated Rack Rack Doors Close VEG-03 Plant Photo Closing Applications and Downlink of MPEG2 Multicast Video via OCA Combustion Integrated Rack Hardware Return Health Maintenance System (HMS) Spaceflight Cognitive Assessment Tool for Windows (WinSCAT) Test CHeCS Rack stowage reconfiguration BIOPLENKA. Installation of Thermostat ТБУ-В No.05 In Flight Maintenance (IFM) Waste and Hygiene Compartment (WHC) Full Fill EML Reprogramming Cable removal PRODUTSENT. ТБУ-В No.2 Incubator Setup Progress 436 [AO] Stowage for Disposal and IMS Ops BIOPLENKA. Installation of Cryogem-03 Extravehicular Mobility Unit (EMU) Resize Water Recovery System Waste Water Tank Drain Emergency RS ISS VHF-1 Comm Checkout from USOS IMS Update Regenerative Environmental Control and Life Support System (RGN) Wastewater Storage Tank Assembly (WSTA) Fill Flight Director/ISS CREW CONFERENCE CONTENT. Experiment Ops  Completed Task […] from NASA http://ift.tt/2yhIApb via IFTTT

Find the MDCA full form, course syllabus, fees, and eligibility. Start your journey with the MDCA computer course and boost your IT career today.

68P Launch and Dock Delay:  68P was planned for launch at 04:30 AM Central time, but the launch was aborted during final countdown.  Russian teams are looking into the cause of the abort.  The next launch opportunity is Saturday morning at 03:47 AM Central, with docking two days later on Monday morning. Multi-Omics Sample Collections: A 52S crewmember collected saliva samples and completed a questionnaire for the Japan Aerospace Exploration Agency (JAXA) Multi-Omics experiment. The samples were placed into the Minus Eighty Degree Celsius Laboratory Freezer for ISS (MELFI). The Multi-omics analysis of human microbial-metabolic cross-talk in the space ecosystem (Multi-Omics) investigation evaluates the impacts of space environment and prebiotics on astronauts’ immune function, by combining the data obtained from the measurements of changes in the gut microbiological composition, metabolites profiles, and the immune system. Combustion Integrated Rack (CIR) Maintenance: The crew performed maintenance activities in the CIR by replacing a window and the CIR Interface Resource Ring (IRR) vent filter inside the combustion chamber due to fuel and combustion by-product buildup. The CIR is used to perform combustion experiments in microgravity. The CIR can be reconfigured easily on orbit to accommodate a variety of combustion experiments. It consists of an optics bench, a combustion chamber, a fuel and oxidizer management system, environmental management systems, and interfaces for science diagnostics and experiment specific equipment. Combustion Integrated Rack (CIR) Configuration for Advanced Combustion via Microgravity Experiments (ACME): The crew continued to conduct ACME insertion configurations that began yesterday, by disconnecting water umbilicals at CIR Z-Panel to remove water pressure from the rack and then remove the Multi-user Droplet Combustion Apparatus (MDCA) Chamber Insert Assembly (CIA) from the CIR combustion chamber for the final time. The ACME chamber insert for the first set of test points was configured and connected into the CIR combustion chamber.  After the water umbilicals were reconnected to Z-Panel, the crew checked for leaks. The ACME investigation is a set of five independent studies of gaseous flames to be conducted in the CIR. ACME’s primary goal is to improve fuel efficiency and reduce pollutant production in practical combustion on Earth. Its secondary goal is to improve spacecraft fire prevention through innovative research focused on materials flammability.  Fine Motor Skills (FMS): A 51S crewmember conducted a Flight Day 75 FMS session executed on a touchscreen tablet, where the subject performed a series of interactive tasks. The investigation studies how fine motor skills are affected by long-term microgravity exposure, different phases of microgravity adaptation, and sensorimotor recovery after returning to Earth gravity. The goal of FMS is to answer how fine motor performance in microgravity trends/varies over the duration of a six-month and year-long space mission; how fine motor performance on orbit compares with that of a closely matched participant on Earth; and how performance trends/varies before and after gravitational transitions, including the periods of early flight adaptation, and very early/near immediate post-flight periods. Veg-03 Operations: The crew checked and photo documented the status of the plants in the Veggie facility, and evaluated the plant pillows to determine if additional watering was required. The Veg-03 investigation uses the Veggie plant growth facility to cultivate a type of cabbage, lettuce and mizuna which are harvested on-orbit with samples returned to Earth for testing.  Organisms grow differently in space, from single-celled bacteria to plants and humans. Future long-duration space missions will require crew members to grow their own food, so understanding how plants respond to microgravity is an important step toward that goal. Veg-03 uses the Veggie plant growth facility to cultivate a type of cabbage, lettuce and mizuna which are harvested on-orbit with samples returned to Earth for testing. USOS Extra-Vehicular Activity (EVA) #46 Preparations:  Today the crew reconfigured necessary EVA tools and resized an EVA Mobility Unit (EMU) in support of next week’s EVA.  The goals of this EVA include Removal and Replacement (R&R) of the degraded CP13 camera and lubrication of the Latching End Effector (LEE) B. Today’s Planned Activities All activities were completed unless otherwise noted. Multi Omics Saliva Operations Multi Omics Saliva sample MELFI Insertion Multi Omics Question KUBIK Temperature Logger Deinstallation KUBIK Temperature Adjustment to 38°C ISS Crew and ГОГУ (RSA Flight Control Team) Weekly Conference USOS Window Shutter Close ISS HAM Radio Power Down Extravehicular Activity (EVA) Tool Configuring Inventory Management System (IMS) conference Treadmill 2 (T2) Exercise Video Equipment Setup Fine Motor Skills Experiment Test – Subject Vacuum Cleaning ВД1 and ВД2 air ducts in MRM2 Photography of the БД-2 treadmill belt edge and screen form of Belt tab Progress 436 [AO] Cargo Transfers and IMS Ops At Home In Space Culture Photo СОЖ Maintenance ACME Insertion Configuration CIR Window Replacement In Flight Maintenance (IFM) Waste and Hygiene Compartment (WHC) Pre-Treat Tank and Dose Pump Remove & Replace Monitoring shutter closure on windows 6, 8, 9, 12, 13, 14. EML Reprogramming Cable installation CIR Vent Filter Replacement MPEG2 Multicast Test via Ku-band (Activation/Deactivation of TV data and MPEG2 Multicast controls). Tagup with specialists Preparation for Progress 437 Docking Fluids Integrated Rack Hardware Gather Progress 437 Docking to DC1 Activation of MPEG2 Multicast TV Monitoring Equipment. Tagup with specialists Combustion Integrated Rack Front End Cap Close Extravehicular Mobility Unit (EMU) Long Life Battery (LLB) Terminate Activation of mpeg2 multicast video recording mode Combustion Integrated Rack Rack Doors Close VEG-03 Plant Photo Closing Applications and Downlink of MPEG2 Multicast Video via OCA Combustion Integrated Rack Hardware Return Health Maintenance System (HMS) Spaceflight Cognitive Assessment Tool for Windows (WinSCAT) Test CHeCS Rack stowage reconfiguration BIOPLENKA. Installation of Thermostat ТБУ-В No.05 In Flight Maintenance (IFM) Waste and Hygiene Compartment (WHC) Full Fill EML Reprogramming Cable removal PRODUTSENT. ТБУ-В No.2 Incubator Setup Progress 436 [AO] Stowage for Disposal and IMS Ops BIOPLENKA. Installation of Cryogem-03 Extravehicular Mobility Unit (EMU) Resize Water Recovery System Waste Water Tank Drain Emergency RS ISS VHF-1 Comm Checkout from USOS IMS Update Regenerative Environmental Control and Life Support System (RGN) Wastewater Storage Tank Assembly (WSTA) Fill Flight Director/ISS CREW CONFERENCE CONTENT. Experiment Ops  Completed Task […] from ISS On-Orbit Status Report https://go.nasa.gov/2yhW1FK