An Overview of MSBTE Diploma
Basic Science (Physics + Chemistry) K-Scheme 311305 Video Lectures in FREE
1. Units and Measurements (9 Marks)
2. Electricity, Magnetism and Semiconductors (14 Marks)
2.1(c) Electric field, Electric field intensity, potential and potential difference
2.1(d) Potential and potential difference
2.2(b) Magnetic field intensity and its units, magnetic lines of force, magnetic flux.
2.3(c) Laws of series and parallel combination of resistance
2.3(d) Conversion of galvanometer into ammeter
2.3(e) Conversion of galvanometer into voltmeter
2.3(f) Heating effect of electric current
2.4(a) Conductors and Insulators
2.4(b) Semiconductors and Intrinsic and Extrinsic semiconductors
2.4(c) Minority and Majority charge carriers
2.5(b) Depletion layer I-V characteristics of p-n junction
2.5(c) Static and Dynamic resistance
2.5(d) Applications of p-n junction diode: Half wave rectifier.
3. Thermometry and Fiber Optics (12 Marks)
4. Chemical bonding (9 Marks)
4.1 Indian Chemistry:-Philosophy of atom by Acharya Kanad.
4.2(a) Electronic theory of valency: Assumptions
4.2(d) Intermolecular forces of attraction.
4.3 Molecular arrangement in solid, liquid and gases.
4.4(a) Structure of solids: crystalline and amorphous solids
4.4(b) Properties of metallic solid
4.4(d) Unit cell Types simple cubic, body center cubic (BCC) , face centre cubic (FCC)
5. Electro chemistry and Metal Corrosion, its prevention (12 Marks)
5.1(a) Electrolyte- Types of electrolyte
5.1(b) Ionization and Dissociation
5.1(d) Electrode potential: oxidation and reduction
5.1(e) Mechanism of electrolysis:Electrolysis
5.1(f) Electrochemical series for cations and anions
5.1(g) Mechanism of electrolysis of CuSO4 solution
5.2(a) Faraday’s laws of electrolysis: Faraday’s first and second law
5.2(b) Relation between electrochemical equivalent and chemical equivalent, Numerical
5.2(c) Applications of electrolysis: Electro-refining of copper and Electroplating.
5.3 Difference between primary and secondary cell.
5.4(b) Galvanic cell action by Daniel cell
5.5 Factors affecting the rate of corrosion.
5.6(c) Anodic and cathodic protection
5.6(d) Choice of material-using pure metal and using metal alloy
6. Engineering Materials and Catalysis (14 Marks)
6.1(a) Paints: Purposes of applying paint
6.1(b) Characteristics of paints, Ingredients of paints, Function and examples of each ingredient.
6.2 Varnish: Types, Difference between paint and varnishes.
6.3(a) Insulators: Characteristics, Classification
6.3(b) Properties and Application of Glass wool Thermocol.
6.6 Adhesives: Characteristics, Classification and their uses.
6.7 Lubricants: Classification, properties and Applications.
6.8 Catalysis: Types of catalysis homocatalysis, heterocatalysis.
6.9(a) Catalyst: Types of Catalyst Positive, Negative and Auto-catalyst
6.9(b) Catalytic Promoter and Catalytic inhibitor
Books / Notes PDF
Important Questions PDF
Lab Manual Answers PDF
External Pratical VIVA / Oral Practice Question PDF
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MSBTE Diploma Basic Science (Physics + Chemistry) Video Lectures Chapter-wise / Unit-wise / Topic-wise Available
- Unit 1. Units and Measurements (Topic-wise Full Video Lecture)
- Unit 2. Electricity, Magnetism and Semiconductors (Topic-wise Full Video Lecture)
- Unit 3. Thermometry and Fiber Optics (Topic-wise Full Video Lecture)
- Unit 4. Chemical bonding (Topic-wise Full Video Lecture)
- Unit 5. Electro chemistry and Metal Corrosion, its prevention (Topic-wise Full Video Lecture)
- Unit 6. Engineering Materials and Catalysis (Topic-wise Full Video Lecture)
- Syllabus PDF of MSBTE Basic Mathematics
- Books/Notes PDF of MSBTE Basic Mathematics
- IMP Practice Questions PDF of MSBTE Basic Mathematics
- Lab Manual Answers PDF of MSBTE Basic Mathematics
- External Practical VIVA / Oral Practice Qs of MSBTE Basic Mathematics
MSBTE Diploma Basic Science Curriculum
Scope:
Basic Science Physics
for diploma programs typically encompasses:
1. Physics:
·
Mechanics: Newton's laws, work, energy, and
power.
·
Thermodynamics: Laws of thermodynamics, heat
engines.
·
Electricity and Magnetism: Basic circuits,
electromagnetic induction.
· Waves and Optics: Sound waves, light waves, lenses, and mirrors.
The core areas typically covered
under Diploma Physics include:
· Basics of kinematics and dynamics.
· Newton's laws of motion.
· Work, energy, and power.
· Laws of conservation of momentum and energy.
· Rotational motion and moment of inertia.
· Temperature and heat concepts.
· Laws of thermodynamics.
· Heat engines, refrigerators, and heat pumps.
· Kinetic theory of gases.
· Electrostatics: Coulomb's law, electric field, electric potential.
· Direct and alternating current circuits.
· Magnetic fields and electromagnetic induction.
· Basic electronic components: resistors, capacitors, and inductors.
· Reflection and refraction of light.
· Thin lens formula and magnification.
· Wave optics: interference, diffraction, and polarization.
· Modern optics: lasers, fiber optics.
Modern Physics:
·
Basics of quantum mechanics: photons,
wave-particle duality.
·
Atomic and nuclear physics: atomic models,
radioactivity.
·
Semiconductors: diodes, transistors, and basic
digital circuits.
2. Chemistry:
·
Atomic Structure: Basic atomic theory, electron
configuration.
·
Chemical Bonding: Ionic, covalent, and metallic
bonding.
·
Acids, Bases, and Salts: Properties, uses, and
examples.
· Organic Chemistry: Introduction to hydrocarbons, functional groups.
Here are the core areas that are typically covered under Diploma Chemistry:
· Introduction to atoms, molecules, and ions.
· Chemical reactions, stoichiometry, and balancing equations.
· Periodic table and chemical bonding.
· Chemical kinetics and equilibrium.
· Study of s, p, d, and f block elements.
· Coordination compounds, ligands, and crystal field theory.
· Acid-base theories and salts.
· Basics of organic compounds, functional groups, and isomerism.
· Reactions of alkanes, alkenes, alkynes, alcohols, aldehydes, ketones, carboxylic acids, amines, and other important organic classes.
· Concepts of aromaticity, reaction mechanisms, and stereochemistry.
· Thermodynamics and its applications.
· Phase rule and phase diagrams.
· Chemical kinetics and electrochemistry.
· Qualitative and quantitative analysis.
· Spectroscopy, chromatography, and titration methods.
· Basics of environmental pollution, pollutants, and their impact.
· Water and air quality parameters and treatment methods.
· Sustainable and green chemistry practices.
MSBTE Diploma Basic Science Importance:
- Provides a strong foundation for understanding
technical and engineering concepts.
- Encourages analytical and critical thinking.
- Offers a holistic understanding of the world,
aiding in better problem-solving in technical fields.
- Promotes environmental awareness, which is crucial
in today's context.
MSBTE Diploma Basic Science Study
Tips:
- Interactive Learning: Use models,
simulations, and laboratory experiments for a better grasp of concepts.
- Real-world Applications: Relate the theoretical
knowledge with real-world applications to understand its relevance.
- Consistent Revision: Regularly revise to
keep concepts fresh.
- Seek Clarifications: Don't hesitate to ask
questions and clear doubts immediately.