Genius Jnr - Fill in the blanks: (a). 1 lakh = _________ ten thousand. (b). 1 million = _________ hundred thousand. (c). 1 crore = _________ ten lakh. (d). 1 crore = _________ million. (e). 1 million = _________ lakh.

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Fill in the blanks:

(a). 1 lakh = _________ ten thousand.

(b). 1 million = _________ hundred thousand.

(c). 1 crore = _________ ten lakh.

(d). 1 crore = _________ million.

(e). 1 million = _________ lakh.

or

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Circuit Figure Two Identical Diodes D1 D2 Use Following Information Answer Next Question P N Junction Diode Withstand Electric Current 10 Curr Diode Conducts Forward Biased Using Property Diode Find Output Potential V0 Following Given Circuit Use Transistor Switching Circuit Following Region Characteristic Curve Required D1 Silicon Diode D2 Germanium Diode Circuit Shown Zero Forward Bias Resistance Find Total Current Fl Following Logic Gate Circuit Input Waves B Terminals Given Following Options Gives Correct Output Wa Gate Obtained Combination Gates Shown Diode Used Voltage Regulator Circuit Diagram Given B Input Terminals Output Terminal D1 D2 Ideal Junction Diodes Circuit Diagram Waveform Input Full Wave Rectifier Shown Figure Waveform Output Full Wave Rectifier Use Following Information Answer Next Question Given Figure Shows Rectifier Circuit Consisting Two D Use Following Information Answer Next Question Given Figure Represents Logic Circuit Following Truth Use Following Information Answer Next Question Semiconductor Physics Electron Hole Intrinsic Carrier Use Following Information Answer Next Question Pure Ge Crystal 6 1029 Atoms 3 Doped 1 Ppm Parts Per Use Following Information Answer Next Question Consider Following Statements Regarding Potential Bar Following Atoms Used Dopant Obtain N Type Semiconductor Use Following Information Answer Next Question Band Gap Germanium Atom 0 72 Ev Silicon Atom 1 12 Ev Use Following Information Answer Next Question Extrinsic Semiconductor Electron Concentration 6 1018 Use Following Information Answer Next Question Collector Current N P N Transistor 8 80 Emitted Elect Use Following Information Answer Next Question Current Gain Common Emitter Ce Amplifier 74 Emitter C Use Following Information Answer Next Question Power Amplification Common Emitter Ce Amplifier 22110 Band Gap Germanium 0 72 Ev Silicon 1 12 Ev Ratio Intrinsic Carrier Concentration Ge Si 300 K Use Following Information Answer Next Question Reverse Saturation Current P N Junction Diode 7 10 5 Use Following Information Answer Next Question Output Given Digital Circuit Use Following Information Answer Next Question Truth Table Certain Logic Circuit Given Input Output Use Following Information Answer Next Question Common Emitter Ce Amplifier Current Gain 49 Voltage D Use Following Information Answer Next Question Given Figure Shows Combination Gates Digital Circuit Use Following Information Answer Next Question Digital Circuit Shown Given Figure B Inputs Output Tr P N Junction Fabricated Semiconductor Photodiode Used Detecting Light Wavelength 400 Nm Detect Light Use Following Information Answer Next Question Forward Current 0 06 Applied P N Junction Diode Rever Use Following Information Answer Next Question Input Voltage Applied Cascaded Amplifier Consisting T Use Following Information Answer Next Question Two Semiconductors Given Semiconductor Holes Minority Following Numbers Perfect Cubes Case Perfect Cube Find Number Whose Cube Given Number 125 Ii 243 Iii Evaluate 1 2 3 Ii 3 5 3 Iii 0 8 3 Iv 0 05 3 Tick Correct Answer Following Square Even Number 196 B 441 C 625 529 Tick Correct Answer 288128 32 B 32 C 32 1 49 Write Quotient Remainder Divide 6x2 31x 47 2x 5 Write Quotient Remainder Divide 15x2 X 6 3x 2 Find Product X3 Y3 X2 Y2 Find Product 3p2 Q2 2p2 3q2 Add 6ax 2by 3cz 6by 11ax Cz 10cz 2ax 3by Add 3a 4b 4c 2a 3b 8c 6b C Tick Correct Answer 5x6 Exactly Divisible 3 Least Value X 0 B 1 C 2 3 Complete Magic Square 14 0 8 6 11 4 7 2 1 12 Fill Numbers 1 6 Without Repetition Side Triangle Adds 12 Use Following Information Answer Next Question Given Figure Sides Yx Zy Quadrilateral Wxyz Extended Relation Resistivity Metals Insulators Semi Conductors Pure Semi Conductor Sample Size 1 Cm 1 Cm 1 Mm Conduction Electrons Calculate Number Holes Sample Obtain Expression Classical Frequency Revolution Electron Nth Orbit Hydrogen Atom Ii Hydrogen Atom Inputs Given Digital Circuit Output One Given Figures Show Digital Circuit Input Waveforms B Equal Time Intervals Respectively Draw Waveform Following Figure Shows Input Waveforms B Output Waveform Gate Identify Gate Write Truth Table Draw L Draw Circuit Diagram Study Input Output Characteristics N P N Transistor Common Emitter Configurati Help Diagram Show Biasing Light Emitting Diode Led Give Two Advantages Conventional Incandescent Lam Diagram Shows Piece Pure Semiconductor Series Variable Resistor R Source Constant Voltage V Would In Draw Circuit Diagram Common Emitter Amplifier Using N P N Transistor Draw Input Output Wave Forms Si Write Symbol Truth Table Gate Explain Gate Realized Practice Using Two Diodes Draw Voltage Current Characteristic Zener Diode Give Logic Symbol Gate Draw Output Wave Form Input Wave Forms B Gate Optical Detector State Three Essential Characteristics Name Factor Decides Good Detector Help Labelled Circuit Diagram Explain N P N Transistor Used Amplifier Common Emitter Configuration E Explain Help Circuit Diagram Thickness Depletion Layer P N Junction Diode Changes Forward Biased Fol Distinguish Metals Insulators Semiconductors Basis Energy Bands B Photodiodes Used Preferably Rever Draw Explain Output Waveform Across Load Resistor R Input Waveform Shown Given Figure Explain Width Intrinsic Semiconductor Material Converted P Type Ii N Type Extrinsic Semiconductor Explain Help Ene Draw Circuit Diagram Use Npn Transistor Amplifier Common Emitter Configuration Input Resistance Tran Values Input B Boolean Expression Output Gate Connected Inputs Nand Gate Draw Logic Circuit Combination Gates Write Truth Table Explain Help Schematic Diagram Principle Working Light Emitting Diode Criterion Kept Mind Choosing S State Principle Working P N Diode Rectifier Explain Help Circuit Diagram Use P N Diode Full Wave Rec One Two Diodes D1 D2 Given Figures Forward Biased Ii Reverse Biased Output 2 Input Gate Fed Gate Draw Logic Circuit Combination Gates Write Truth Table Output Combinati Explain Help Circuit Diagram Use N P N Transistor Amplifier Common Emitter Configuration Write Expre Distinguish Intrinsic Semiconductor P Type Semiconductor Give Reason P Type Semiconductor Crystal El Given Inputs B Fed 2 Input Nand Gate Draw Output Wave Form Gate Figure Shows V Characteristic Semiconductor Diode Identify Semiconductor Diode Used Ii Draw Circuit State Reason Gaas Commonly Used Making Solar Cell Draw Labelled Circuit Diagram Common Emitter Transistor Amplifier Explain Clearly Input Output Signa Inputs B Inverted Using Two Gates Outputs Fed Gate Shown Analyze Action Gates 1 2 Identify Logic Gat Draw Circuit Diagram Illuminated Photodiode Reverse Bias Photodiode Used Measure Light Intensity Explain Formation Depletion Layer Potential Barrier P N Junction B Figure Given Input Waveform Conv Draw Circuit Diagram Show Photodiode Biased Draw Characteristic Curves Two Different Illumination In Write Logic Symbol Truth Table Gate Explain Gate Realized Using Two Diodes Given Logic Symbol Gate Draw Output Waveform Gate Input Wave Forms B Draw Energy Band Diagrams P Type N Type Semiconductors Semiconductor Equal Electron Hole Concentrati Explain Help Circuit Diagram Thickness Depletion Layer P N Junction Diode Changes Forward Biased Fol Explain Help Circuit Diagram Thickness Depletion Layer P N Junction Diode Changes Forward Biased Fol Output 2 Input Gate Fed Gate Draw Logic Circuit Combination Gates Write Truth Table 2 Draw Output Wave Form X Using Given Inputs B Logic Circuit Shown Also Identify Gate Output 2 Input Gate Fed Inputs B Another Gate Write Truth Table Find Final Output Combinations B Minority Charge Carriers N Type Semiconductors N Type Crystal Contains Free Electrons Holes Mean N Type Crystal Carries Overall Negative Charge Giv Happens Width Depletion Region Reverse Bias Applied Across P N Junction Collector Base Junction Emitter Base Junction Biased Correctly Obtain Transistor Action Valency Impurities Added Intrinsic Semiconductor Result P Type Semiconductor Give Example Impurity Pure Silicon Crystal 5 1028 Atoms M3 Converted N Type Semiconductor Doping 2 1021 Atoms Arsenic Conc State Form Energy Gets Converted Another Form Case Solar Cell State Two Applications Solar Cell Energy Photon Wavelength 200 Nm Equal Band Gap Semiconductor Material Minimum Energy Required Creati Output Characteristic Common Emitter Transistor Shown Given Figure Use Graph Find Current Amplificat Draw Circuit Diagram Used Constructing Gate Using P N Junction Diodes B Draw Logic Circuit Boolean E Draw Input Output Characteristics Transistor Common Emitter Configuration B Define Three Important A Illustrate Cut Active Saturation Regions Plot V0 Vi Transistor Switch Circuit Identify Logic Gate Represented Following Circuit Give Logic Symbol Led List Advantages Distinguish Forward Reverse Biased P N Junction Illustrate Amplifier Circuit Using P N P Transistor Ideal Current Source B Give Example Semiconductor Device Serves Ideal Current Source Draw Circuit Di Led Constructed P N Junction Certain Semiconducting Material Eg 2 1 Ev Wavelength Light Emits Wavele State Truth Table Xor Gate Construct Two Xor Gates Using Nand Gates Ii Gates B Logic Gate Illustrate Diagrammatically Represent Energy Levels P Type N Type Semiconductor Put Forward Biased P N Junction Diode Voltage Drop 0 4 V Assumed Independent Current Current Excess Draw Truth Table Circuit Shown Given Figure Draw Circuit Diagram Half Wave Rectifier Along Suitable Input Output Waveforms Forward Biased Circuit Obtained Using P N Junction Diode Happens Width Depletion Layer Zener Diode Different Normal Diode Photodiode Different Solar Cell Draw Output Wave Form Given Input Waveforms Circuit Shown Given Figure Piece Si 0 K Irradiated Em Wave Make Conducting Wavelength Wave Eg Si 1 14 Ev Output Audio Signal Across Collector Resistance 1 5 K 4 V Current Amplification Factor 1000 Calculat Base Transistor Made Much Thinner Emitter Collector Regions Explain Photodiode Help Diagram Derive Expression Input Output Resistances Transistor Ce Configuration Although C Ge Si Lattice Structure C Insulator Ge Si Semiconductors Illustrate Energy Level Diagrams Following Materials Metals B Semiconductors Ideal Voltage Source Gi Addition Kind Impurity Results Formation N Type Semiconductor B Identify Following Materials Give Co Bar Magnet Released Glass Ring Shown Given Figure Actual Acceleration Bar Magnet Greater Lesser Equa Construct Following Using Gates Gate Gate B Identify Basic Gates Represented Circuits Boxes Dotted L Choose Correct Answer Given Four Options Following Quadratic Equation X2 2x 1 4 X 2 3 B 2x2 5 X2x 25 Choose Correct Answer Given Four Options Following Quadratic Equation 2 X 1 2 4x2 2x 1 B 2x X2 X2 5 Use Following Information Answer Next Question Semiconductor Physics Electron Hole Intrinsic Carrier Use Following Information Answer Next Question Pure Ge Crystal 6 1029 Atoms 3 Doped 1 Ppm Parts Per Use Following Information Answer Next Question Consider Following Statements Regarding Potential Bar Use Following Information Answer Next Question Band Gap Germanium Atom 0 72 Ev Silicon Atom 1 12 Ev Use Following Information Answer Next Question Extrinsic Semiconductor Electron Concentration 6 1018 Use Following Information Answer Next Question Current Gain Common Emitter Ce Amplifier 74 Emitter C Use Following Information Answer Next Question Power Amplification Common Emitter Ce Amplifier 22110 Band Gap Germanium 0 72 Ev Silicon 1 12 Ev Ratio Intrinsic Carrier Concentration Ge Si 300 K Use Following Information Answer Next Question Reverse Saturation Current P N Junction Diode 7 10 5 Use Following Information Answer Next Question Output Given Digital Circuit Use Following Information Answer Next Question Truth Table Certain Logic Circuit Given Input Output Use Following Information Answer Next Question Common Emitter Ce Amplifier Current Gain 49 Voltage D Use Following Information Answer Next Question Given Figure Shows Combination Gates Digital Circuit Use Following Information Answer Next Question Digital Circuit Shown Given Figure B Inputs Output Tr P N Junction Fabricated Semiconductor Photodiode Used Detecting Light Wavelength 400 Nm Detect Light Use Following Information Answer Next Question Forward Current 0 06 Applied P N Junction Diode Rever Use Following Information Answer Next Question Input Voltage Applied Cascaded Amplifier Consisting T Minority Charge Carriers N Type Semiconductors N Type Crystal Contains Free Electrons Holes Mean N Type Crystal Carries Overall Negative Charge Giv Happens Width Depletion Region Reverse Bias Applied Across P N Junction Majority Charge Carriers Case P Type Semiconductor Valency Impurities Added Intrinsic Semiconductor Result P Type Semiconductor Give Example Impurity Difference Doping Levels Emitter Base Collector Transistor Draw Symbol Gate Whose Output 1 Inputs Zero Given Diodes E D1 D2 D3 Reverse Biased Draw Truth Table Circuit Shown Given Figure Pure Silicon Crystal 5 1028 Atoms M3 Converted N Type Semiconductor Doping 2 1021 Atoms Arsenic Conc Draw Energy Level Diagram P Type Crystal Kept Room Temperature Showing Majority Minority Carriers Draw Circuit Diagram Half Wave Rectifier Along Suitable Input Output Waveforms Zener Diode Different Normal Diode Photodiode Different Solar Cell Type Semiconductor Formed Addition Impurity New Electron Concentration Addition Impurity Output Audio Signal Across Collector Resistance 1 5 K 4 V Current Amplification Factor 1000 Calculat Energy Photon Wavelength 200 Nm Equal Band Gap Semiconductor Material Minimum Energy Required Creati Output Characteristic Common Emitter Transistor Shown Given Figure Use Graph Find Current Amplificat Draw Circuit Diagram Transistor Oscillator Output Tank Circuit Fed Back Input Transistor Oscillator Draw Output Wave Form Given Input Waveforms Circuit Shown Given Figure Draw Circuit Diagram Used Constructing Gate Using P N Junction Diodes Draw Logic Circuit Boolean Expression Form Truth Table Boolean Expression Draw Input Output Characteristics Transistor Common Emitter Configuration Define Three Important Ac Parameters Transistors Flow Electrons Controlled Vaccuum Tube Compare Conductivities Metals Insulators Semiconductors Basis Energy Bands Define Metal Illustrate Energy Band Diagram Intrinsic Semiconductor 0 K Doping Semiconductors Necessary Mean Diffusion Current P N Junction Diagrammatically Represent Happens Barrier Potential V0 Reverse Bias V Applied Across P N Junction D Graphically Represent Filter Circuit Changes Output Full Wave Rectifier List One Use Photodiodes Mention Two Advantages Leds Conventional Incandescent Low Power Lamps Represent Iv Characteristics Illuminated Solar Cell Mean Active State Transistor Write Expression Input Output Resistances Transistor Ce Configuration Power Gain Transistor Use Amplifier 1 Mean Capable Generating Power Monolithic Integrated Circuit Resistivities Metals Semiconductors Vary Temperature Classify Following Materials Metals Insulators Semiconductors Material Number Density Carriers 3 Tem Piece Si 0 K Irradiated Em Wave Make Conducting Wavelength Wave Eg Si 1 14 Ev Diagrammatically Represent Energy Levels P Type N Type Semiconductor Led Constructed P N Junction Certain Semiconducting Material Eg 2 1 Ev Wavelength Light Emits Wavele Base Transistor Made Much Thinner Emitter Collector Regions Illustrate Amplifier Circuit Using P N P Transistor Illustrate Cut Active Saturation Regions Plot V0 Vi Transistor Switch Circuit Identify Logic Gate Represented Following Circuit Give Logic Symbol Although C Ge Si Lattice Structure C Insulator Ge Si Semiconductors Explain Recombination Charge Carriers Metals Semiconductors Intrinsic Semiconductor Ratio Ne Nh Intrinsic Semiconductor Fermi Level Addition Kind Impurity Results Formation N Type Semiconductor Identify Following Materials Give Corresponding Energy Level Diagrams Ii State Charged Entities Present Depletion Region Mobility Si Unit Ideal Voltage Source Give Example Semiconductor Device Serves Ideal Voltage Source Avalanche Breakdown Occur Ideal Current Source Give Example Semiconductor Device Serves Ideal Current Source Draw Circuit Diagram Use Semiconductor Transistor Used Common Emitter Configuration Collector Supply 10 V Voltage Drop 1 V Obtained Across Emitter Base Junction P N P Transistor Always Forward Biased Collector Base Junction Always Reverse Base P N P Transistor Left Unconnected Direction Current Flow Circuit Affected Illustrate Logic Circuit Xor Gate Using Gates Identify Following Logic Gate 0 1 1 0 300 K Pure Si Hole Concentration 1 5 1016 3 Doping Indium Hole Concentration Increases 4 5 1022 3 Ca Intrinsic Semiconductor Free Electron Concentration 108 3 Doped Pentavalent Atoms Density 1024 3 Man Put Forward Biased P N Junction Diode Voltage Drop 0 4 V Assumed Independent Current Current Excess Dynamic Resistance P N Junction Increase Forward Voltage 0 24 V Increases Forward Current 53 6 Zener Diode Specified Breakdown Voltage 13 V Maximum Power Dissipation 464 Mw Maximum Current Diode Base Collector Current N P N Transistor Affected Emitter Base Doping Concentration Calculate Input Resistance Transistor Operating Vce 5 V Ce Configuration Input Characteristics Shown State Truth Table Xor Gate Construct Two Xor Gates Using Nand Gates Ii Gates Logic Gate Illustrate Circuit Diagram Gate Using Junction Diodes Construct Following Using Gates Gate Ii Gate Identify Basic Gates Represented Circuits Boxes Dotted Line Give Truth Table Entire Circuit Diode Used Indicator Light Electronic Gadgets Diode Used Voltage Regulator Electronic Symbol Led Use Following Information Answer Next Question Logic Gates Building Blocks Electronic Circuits Logic Logic Gate One Input One Output Equivalent Switching Circuit Gate Logic Gate Constructed Without Gate Following Logic Gates Output 1 Use Following Information Answer Next Question Circuit Shown Figure Consists Transistor Whose Collec Symbol Nand Gate Use Following Information Answer Next Question Circuit Shown Figure Consists Two Diodes D1 D2 Resist Use Following Information Answer Next Question Inputs Logic Gates Connected Different Ways Give Diff Use Following Information Answer Next Question Given Circuit E 8 V R 2 2 K Diode Silicon Diode Poten Use Following Information Answer Next Question Given Circuit E 8 V R 2 2 K Diode Silicon Diode Forwa Use Following Information Answer Next Question Given Circuit E 8 V R 2 2 K Diode Silicon Diode Forwa Use Following Information Answer Next Question Forward Biased Diode Acts Perfect Conductor E Offers Use Following Information Answer Next Question Forward Biased Diode Acts Perfect Conductor E Offers Use Following Information Answer Next Question Capacitor C Charged Alternating Source Diode Potentia Use Following Information Answer Next Question Circuit Shown Figure Consists Nand Gate Truth Table G Logic Gate Inverts Input Signal Use Following Information Answer Next Question Candice Needs Open Electronic Locker Digital Circuit Use Following Information Answer Next Question Electrical Circuit Figure Two Identical Diodes D1 D2 Use Following Information Answer Next Question D1 Silicon Diode D2 Germanium Diode Diodes Zero Forwa Use Following Information Answer Next Question D1 Silicon Diode D2 Germanium Diode Resistances Zero Use Following Information Answer Next Question P N Junction Diode Withstand Electric Current 10 Curr Use Following Information Answer Next Question Given Circuit E 10 5 V Diode Constant Voltage Drop 0 Function Base Transistor Diode Offer High Resistance Reverse Biased Type Semiconductor Formed Germanium Doped Boron Give Two Applications Diode Difference Fm Radio Signals B Write Different Parts Transistors Functions P N Junction Thickness Depletion Region Decreases Forward Biased Explain Following Logic Gate Circuit Input Waves B Terminals Given Following Options Gives Correct Output Wa Diode Conducts Forward Biased Using Property Diode Find Output Potential V0 Following Given Circuit Use Transistor Switching Circuit Following Region Characteristic Curve Required D1 Silicon Diode D2 Germanium Diode Circuit Shown Zero Forward Bias Resistance Find Total Current Fl Transistor Used Use Following Information Answer Question Two Symbolic Diagrams Shown Figure Following Statements Co Use Following Information Answer Question Active State Transistor Emitter Base Junction Acts Resista Intrinsic Semi Conductor Behaves Similar Insulator Temperature Following Statements Correct Regarding Fermi Level Instrinsic Semiconductor Room Temperature Following Statements Correct Regarding Current Semiconductor Emitter Current Collector Current Base Current Transistor Represented Ie Ic Ib Respectively Following Statements Correct Regarding Terminals Transistor Following Statements Correct Regarding Active State Transistor P N P Transistor Emitter Current 15 95 Emitted Holes Reach Collector Collector Current N P N Transistor Collector Current 19 95 Emitted Electrons Reach Collector Base Current Use Following Information Answer Question Normal Operation Transistor Emitter Junction Forward Biase Value Transistor 0 8 Value Current Gain N P N Transistor 0 98 Used Amplifier Change Base Current 0 02 Change Collector Current P N P Transistor Used Amplifier Transistor Works Amplifier Emmiter Base Junction Base Collector Junction Following Statements Incorrect Regarding Zener Diode Following Incorrect Regarding Intrinsic Semiconductors Given Circuit Diagram Voltmeter V Connected Across Lamp L Ho Would Brightness Lamp Ii Voltmeter Read Explain Help Circuit Diagram Working Photo Diode Write Briefly Used Detect Optical Signals Mention I Output Characteristics N P N Transistor Ce Configuration Shown Figure Determine Dynamic Output Resis Given Circuit Diagram Voltmeter V Connected Across Lamp L Ho Would Brightness Lamp Ii Voltmeter Read Explain Help Circuit Diagram Working Photo Diode Write Briefly Used Detect Optical Signals Mention I Output Characteristics N P N Transistor Ce Configuration Shown Figure Determine Dynamic Output Resis Explain Help Circuit Diagram Working Photo Diode Write Briefly Used Detect Optical Signals Mention I Given Circuit Diagram Voltmeter V Connected Across Lamp L Ho Would Brightness Lamp Ii Voltmeter Read Output Characteristics N P N Transistor Ce Configuration Shown Figure Determine Dynamic Output Resis Draw Typical Output Characteristics N P N Transistor Ce Configuration Show Characteristics Used Dete Circuit Shown Figure Identify Equivalent Gate Circuit Make Truth Table 2 Draw V Characteristics P N Junction Diode Answer Following Questions Giving Reasons Current Reverse Circuit Shown Figure Identify Equivalent Gate Circuit Make Truth Table 2 Draw Typical Output Characteristics N P N Transistor Ce Configuration Show Characteristics Used Dete Draw V Characteristics P N Junction Diode Answer Following Questions Giving Reasons Current Reverse Circuit Shown Figure Identify Equivalent Gate Circuit Make Truth Table 2 Draw Typical Output Characteristics N P N Transistor Ce Configuration Show Characteristics Used Dete Draw V Characteristics P N Junction Diode Answer Following Questions Giving Reasons Current Reverse Write Two Characteristic Features Distinguish N Type P Type Semiconductors Light Emitting Diode Led Draw Circuit Studying Input Output Characteristics Transistor Ce Configuration Show Output Characte Write Two Characteristics Features Distinguish N Type P Type Semiconductors Light Emitting Diode Led Draw Circuit Studying Input Output Characteristics Transistor Ce Configuration Show Output Characte Describe Briefly Help Circuit Diagram Flow Current Carriers P N P Transistor Regulated Emitter Base Describe Briefly Help Diagram Role Two Important Processes Involved Formation P N Junction B Name D Describe Briefly Help Circuit Diagram Flow Current Carriers P N P Transistor Regulated Emitter Base Describe Briefly Help Diagram Role Two Important Processes Involved Formation P N Junction B Name D Current Forward Bias Known Current Reverse Bias Reason Operate Photodiode Reverse Bias Draw Simple Circuit Ce Transistor Amplifier Explain Working Show Voltage Gain Av Amplifier Given Ac Current Forward Bias Known Current Reverse Bias Reason Operate Photodiode Reverse Bias Draw Simple Circuit Ce Transistor Amplifier Explain Working Show Voltage Gain Av Amplifier Given Ac Current Forward Bias Known Current Reverse Bias Reason Operate Photodiode Reverse Bias Draw Simple Circuit Ce Transistor Amplifier Explain Working Show Voltage Gain Av Amplifier Given Ac Plot Graph Showing Variation Current Versus Voltage Material Gaas Write Truth Table Combination Gates Shown Name Gates Used Identify Logic Gates Marked P Q Given Circ State Briefly Processes Involved Formation P N Junction Explaining Clearly Depletion Region Formed Write Truth Table Combination Gates Shown Name Gates Used Identify Logic Gates Marked P Q Given Circ State Briefly Processes Involved Formation P N Junction Explaining Clearly Depletion Region Formed Write Truth Table Combination Gates Shown Name Gates Used Identify Logic Gates Marked P Q Given Circ State Briefly Processes Involved Formation P N Junction Explaining Clearly Depletion Region Formed Explain Help Circuit Diagram Working P N Junction Diode Half Wave Rectifier Draw Circuit Diagram N P N Transistor Amplifier Ce Configuration Condition Transistor Act Amplifier Write Two Distinguishing Features Conductors Semiconductors Insulators Basis Energy Band Diagrams Draw Circuit Diagram N P N Transistor Amplifier Ce Configuration Condition Transistor Act Amplifier Explain Help Circuit Diagram Working P N Junction Diode Half Wave Rectifier Write Two Distinguishing Features Conductors Semiconductors Insulators Basis Energy Band Diagrams Explain Help Circuit Diagram Working P N Junction Diode Half Wave Rectifier Draw Circuit Diagram N P N Transistor Amplifier Ce Configuration Condition Transistor Act Amplifier Write Two Distinguishing Features Conductors Semiconductors Insulators Basis Energy Band Diagrams Identify Equivalent Gate Represented Circuit Shown Figure Draw Logic Symbol Write Truth Table Draw Energy Band Diagrams N Type P Type Semiconductor Temperature 0 K Mark Donor Acceptor Energy Lev Zener Diode Fabricated Heavily Doping P N Sides Junction B Draw Circuit Diagram Zener Diode Voltage Draw Energy Band Diagrams N Type P Type Semiconductor Temperature 0 K Mark Donor Acceptor Energy Lev Identify Gate Equivalent Circuit Shown Figure Write Truth Table Zener Diode Fabricated Heavily Doping P N Sides Junction B Draw Circuit Diagram Zener Diode Voltage Distinguish Intrinsic Extrinsic Semiconductors Considerations View Photodiode Fabricated State Working Help Suitable Diagram Even Though Current Fo Draw Circuit Diagram Transistor Amplifier Ce Configuration Define Terms Input Resistance Ii Current Distinguish Intrinsic Extrinsic Semiconductors Considerations View Photodiode Fabricated State Working Help Suitable Diagram Even Though Current Fo Draw Circuit Diagram Transistor Amplifier Ce Configuration Define Terms Input Resistance Ii Current Write Two Important Considerations Used Fabricating Zener Diode Explain Help Circuit Diagram Princip Draw Necessary Energy Band Diagrams Distinguish Conductors Semiconductors Insulators Change Temperat Distinguish Intrinsic Extrinsic Semiconductors Considerations View Photodiode Fabricated State Working Help Suitable Diagram Even Though Current Fo Draw Circuit Diagram Transistor Amplifier Ce Configuration Define Terms Input Resistance Ii Current V Characteristic Silicon Diode Shown Figure Calculate Resistance Diode 15 Ii V 10 V Write Briefly Important Processes Occur Formation P N Junction Help Necessary Diagrams Explain Term Integrated Circuit C Distinguish Linear C Ii Digital C B Identify Equivalent Gate Following Circuit Write Two Important Considerations Used Fabricating Zener Diode Explain Help Circuit Diagram Princip Draw Necessary Energy Band Diagrams Distinguish Conductors Semiconductors Insulators Change Temperat Write Functions Three Segments Transistor Ii Draw Circuit Diagram Studying Input Output Characteris Ce Transistor Amplifier Audio Signal Voltage Across Collector Resistance 2 K 2 V Suppose Current Amp Explain Help Diagram Formation Depletion Region Barrier Potential Pn Junction Ii Draw Circuit Diagr Describe Working Principle Solar Cell Mention Three Basic Processes Involved Generation Emf Ii Si G Gautam Went Vacation Village Grandmother Lived Grandmother Took Watch Nautanki One Evening Noticed B Name Junction Diode Whose V Characteristics Drawn Write Two Processes Take Place Formation P N Junction Explain Help Diagram Formation Depletion Regio Ce Transistor Amplifier Audio Signal Voltage Across Collector Resistance 2 K 2 V Given Current Ampli Zener Diode Fabricated Heavily Doping P N Sides Junction Explain Briefly Explain Use Zener Diode De Explain Briefly Help Necessary Diagrams Forward Reverse Biasing P N Junction Diode Also Draw Charact Draw Circuit Diagram N P N Transistor Amplifier Common Emitter Configuration B Derive Expression Vo Following Diagram Semiconductor Would Increase Decrease Value R Keep Reading Ammeter Constant Heate Draw Logic Symbol Gate Write Truth Table Describe Help Circuit Diagram Working Photodiode Vidhi Attending Physics Class Class Taught Teacher Led Bulbs Help Reducing Electric Power Consumptio Relationship Number Electrons Ne Number Holes Nh Intrinsic Semiconductor Relationship Number Electrons Ne Number Holes Nh Extrinsic Semiconductor Kind Impurity Added Pure Ge Si Obtain P Type Extrinsic Semiconductor True Forward Biased Diode 1 Forward Biased Diode P Region Connected Positive Terminal 2 Forward Bias Following Pairs Correct Representation Two Types Transistors Draw Typical Input Output Characteristics N P N Transistor Ce Configuration Show Characteristics Use Student Wants Use Two P N Junction Diodes Convert Alternating Current Direct Current Draw Labelled Describe Briefly Functions Three Segments N P N Transistor B Draw Circuit Arrangement Studying Outp Three Photodiodes D1 D2 D3 Made Semiconductors Band Gaps 2 5 Ev 2 Ev 3 Ev Respectively Able Detect Write Truth Tables Logic Gates Marked P Q Given Circuit Ii Write Truth Table Circuit B Gates Consid Draw Circuit Diagram N P N Transistor Emitter Base Junction Forward Biased Base Collector Junction Ce Transistor Amplifier Audio Signal Voltage Across Collector Resistance 2 K 2 V Current Amplificati Draw Energy Band Diagram N Type Ii P Type Semiconductors Temperature 0 K Case N Type Si Semiconducto Zener Diode Fabricated Draw V Characteristic Use Explain Working Zener Diode Voltage Regulator P Type Semiconductor Si Ge Doped Impurity Pure Si Crystal 5 1028 Atoms Meter3 Doped 1 Ppm Ni 1 5 1016 3 Number Holes Variation Resistance Temperature Metal Semiconductor Combination Gate Gate Called Wavelength Intensity Light Emitted Led Depend Upon Forward Bias Energy Gap Semiconductor B Energy Ga Photo Diodes Used Detect Radio Waves B Gamma Rays C Ir Rays Optical Signals Property Materials C Si Ge Depends Upon Energy Gap Conduction Valence Bands Ability Junction Diode Alternating Voltage Based Fact Allows Current Pass Forward Biased Solar Cell Draw V Characteristics Explain Three Processes Involved Working Draw Circuit Diagram Full Wave Rectifier Explain Working Showing Input Output Waveforms Explain Formation Potential Barrier Depletion Region P N Junction Diode Effect Applying Forward Bias Photo Diode Briefly Explain Working Draw V Characteristics State Reason Gaas Commonly Used Making Solar Cell