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Kala
17 Feb 2018

Make an oblique sketch for each one of the given isometric shapes:

or
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Check Whether Value Given Brackets Solution Given Equation N 5 19 N 1 B 7n 5 19 N 2 C 7n 5 19 N 2 4pConducting Sphere Radius 1 Surface Charge Density 2 C M2 Determine Charge Sphere Electric Flux CominThree Cubes 2 Cm Edge Placed Side Side Form Cuboid Sketch Oblique Isometric Sketch Cuboid Two Angles Larger Measure Estimate Confirm Measuring Make Oblique Sketch One Given Isometric Shapes Radially Outward Electric Field Region Given E 100 R V M2 Determine Charge Contained Sphere Radius 0Work Done Body Application Constant Force Directly Proportional Distance Travelled Body Express FormExperiment Oil Drop Held Stationary Constant Electric Field 4 104 N C Oil Drop 16 Extra Electrons DeGive Oblique Sketch Ii Isometric Sketch Following Cuboid Dimensions 5 Cm 3 Cm 2 Cm Sketch Unique B CCountries Like Usa Canada Temperature Measured Fahrenheit Whereas Countries Like India Measured CelsFind Measure Angle Shown Figure First Estimate Eyes Find Actual Measure Protractor Give Geometric 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Colour One Blue Colour Placed Bag One Die Selected Random Rolled ColourTwo Parallel Plates Charges Q1 Q2 Areas N Respectively Calculate Charge Distribution Outer Surface PDrain Cleaner Drainex Contains Small Bits Aluminum React Caustic Soda Produce Dihydrogen Volume DihyPressure Exerted Mixture 3 2 G Methane 4 4 G Carbon Dioxide Contained 9 Dm3 Flask 27 C Pressure Gaseous Mixture 0 5 L H2 0 8 Bar 2 0 L Dioxygen 0 7 Bar Introduced 1l Vessel 27 C Density Gas Found 5 46 G Dm3 27 C 2 Bar Pressure Density Stp 34 05 Ml Phosphorus Vapour Weighs 0 0625 G 546 C 0 1 Bar Pressure Molar Mass Phosphorus Student Forgot Add Reaction Mixture Round Bottomed Flask 27 C Instead Placed Flask Flame Lapse Time Calculate Temperature 4 0 Mol Gas Occupying 5 Dm3 3 32 Bar R 0 083 Bar Dm3 K 1 Mol 1 Calculate Total Number Electrons Present 1 4 G Dinitrogen Gas Much Time Would Take Distribute One Avogadro Number Wheat Grains 1010 Grains Distributed Second Calculate Total Pressure Mixture 8 G Dioxygen 4 G Dihydrogen Confined Vessel 1 Dm3 27 C R 0 083 Bar Pay Load Defined Difference Mass Displaced Air Mass Balloon Calculate Pay Load Balloon Radius 10 MasCalculate Volume Occupied 8 8 G Co2 31 1 C 1 Bar Pressure R 0 083 Bar L K 1 Mol 1 2 9 G Gas 95 C Occupied Volume 0 184 G Dihydrogen 17 C Pressure Molar Mass Gas Consider System Consists Two Rings Charge Placed Center One Charge Moved Center Another Disk Charge Would Si Unit Quantity Pv2t 2 N Terms Charles Law Explain 273 C Lowest Possible Temperature Critical Temperature Carbon Dioxide Methane 31 1 C 81 9 C Respectively Stronger Intermolecular ForceExplain Physical Significance Van Der Waals Parameters Assign Oxidation Numbers Underlined Elements Following Species Nah2po4 B Nahso4 C H4p2o7 K2mno4 E CaRing Radius 0 1 Made Thin Metallic Wire Area Cross Section Ring Uniform Charge Coulomb Find Change RJustify Following Reactions Redox Reactions Cuo H2 G Cu H2o G B Fe2o3 3co G 2fe 3co2 G C 4bcl3 G 3liFluorine Reacts Ice Results Change H2o F2 G Hf G Hof G Justify Reaction Redox Reaction Calculate Oxidation Number Sulphur Chromium Nitrogen H2so5 Suggest Structure Compounds Count FallacyWrite Formulae Following Compounds Mercury Ii Chloride B Nickel Ii Sulphate C Tin Iv Oxide Thallium Suggest List Substances Carbon Exhibit Oxidation States 4 4 Nitrogen 3 5 Sulphur Dioxide Hydrogen Peroxide Act Oxidising Well Reducing Agents Reactions Ozone Nitric Acid ActConsider Reactions 6 Co2 G 6h2o L C6 H12 O6 Aq 6o2 G B O3 G H2o2 L H2o L 2o2 G Appropriate Write ReaCompound Agf2 Unstable Compound However Formed Compound Acts Strong Oxidizing Agent Whenever Reaction Oxidising Agent Reducing Agent Carried Compound Lower Oxidation State Formed ReducCount Following Observations Though Alkaline Potassium Permanganate Acidic Potassium Permanganate UsIdentify Substance Oxidised Reduced Oxidising Agent Reducing Agent Following Reactions 2agbr C6h6o2 Consider Reactions Aq I2 Aq 2i Aq Aq 2br2 L 5 H2o L Aq 4br Aq 10h Aq Reductant Thiosulphate React DiJustify Giving Reactions Among Halogens Fluorine Best Oxidant Among Hydrohalic Compounds Hydroiodic Following Reaction Occur Aq 2f Aq 6h Aq Xeo3 G F2 G 3h2o L Conclusion Compound Na4xeo6 Part Drawn ReConsider Reactions H3po2 Aq 4 Agno3 Aq 2 H2o L H3po4 Aq 4ag 4hno3 Aq B H3po2 Aq 2cuso4 Aq 2 H2o L H3Balance Following Redox Reactions Ion Electron Method Aq Aq Mno2 I2 Basic Medium B Aq So2 G Mn2 Aq ABalance Following Equations Basic Medium Ion Electron Method Oxidation Number Methods Identify OxidiSorts Informations Draw Following Reaction Mn3 Ion Unstable Solution Undergoes Disproportionation Give Mn2 Mno2 H Ion Write Balanced Ionic EquaConsider Elements Cs Ne F Identify Element Exhibits Negative Oxidation State B Identify Element ExhiChlorine Used Purify Drinking Water Excess Chlorine Harmful Excess Chlorine Removed Treating SulphurInvertible Matrix Order 2 Det 1 Equal Det B C 1 0EvaluateObject Size 3 0 Cm Placed 14 Cm Front Concave Lens Focal Length 21 Cm Describe Image Produced Lens HGive Account Weather Conditions Characteristics Cold Season Multiple Choice Questions One Following Type Resource Iron Ore Renewable B Biotic C Flow Non RenewabWrite Answers Following Questions 120 Words Integrated Steel Plants Different Mini Steel Plants ProbChoose Appropriate Answer Shg Decisions Regarding Savings Loan Activities Taken Bank B Members C Non Strengths Weaknesses Participant Observation Method Average Product Input Electric Dipole Placed Non Uniform Electric Field Dipole ExperiencesEnclosed Surface Values Electric Flux Entering Leaving Surface 2 3 Respectively Electric Charge InsiForce Two Charged Particles 9 6 N Force Particles Changes 19 2 N Immersed Oil Dielectric Constant OiCharged Particle Q Placed Center Sphere Radius R Another Similar Charge Q Placed Distance L ElectricLtd Issued 10 000 10 Debentures Rs 100 Premium 5 Payable Follows Rs 10 Application Rs 20 Along PremiAmmeter Reads Current 2 Internal Resistance 0 70 Increase Range 4 Value Shunt RequiredElectrochemical Equivalent Metal 5 10 10 7 Kg C Mass Metal Deposited Cathode 2 Current Passed 3 SecoDefine Electric Dipole Moment Write Unit Plot Graph Showing Variation Coulomb Force F Versus R Distance Two Charges Pair Charges 1 C 2 C 2 C Thin Straight Infinitely Long Conducting Wire Charge Density Enclosed Cylindrical Surface Radius R LThree Identical Charges Placed Three Four Corners Square Shown Figure Direction Electric Field CorneConsider Following Figure Q1 2 C Q2 4 C Q3 5 C Q K C Electric Flux Closed Surface 3 Times Find ValueUse Following Information Answer Next Question Spherical Conducting Shell Radius R Surface Charge DeUse Following Information Answer Next Question Two Small Spheres Carrying Charges 4 C 12 C SeparatedUse Following Information Answer Next Question Corner Regular Hexagon Side L Six Equal Charges Q PlaTwo Identical Metallic Spheres Separated 0 5 Charged Attract Force 10 8 N Connected Copper Wire BegiFinite Sheet 0 X 1 0 1 Z 0 Plane Charge Density Given Find Total Charge Sheet Electric Field Region Radially Outward Varies Distance E 500r2 Vm 1 Charge Contained Sphere Radius 5Two Identical Conducting Balls Charge Q Hang Peg Ceiling Non Conducting Threads Length L Find DistanUse Following Information Answer Next Question Point P Distance R R Axis Cylinder Volume Charge DensUse Following Information Answer Next Question Two Equal Charges Q Placed Vertices B Square Abcd ShoPoint P Distance R R Axis Cylinder Shown Volume Charge Density Radius Cylinder R Respectively ElectrTwo Equal Charges Q Placed Two Diagonally Opposite Vertices B Square Abcd Side Square Length Charge Two Free Charge 4q Q Placed Distance Apart Third Charge Q Placed Entire System Equilibrium RatioCharging Soap Bubble Volume Changes Electric Field Region Given Flux Passing Area 2 M2 Xz Plane Charged Particle Moving Action Electric Field Given E K1x K2x2 K1 K2 Positive Constants Also K1 K2 1Rectangular Box Cut Diagonally Form Two Identical Wedges One Wedge Placed Uniform Electric Field MagUse Following Information Answer Next Question Given Figure Shows Distribution Charges Two Similar SUse Following Information Answer Next Question Proton Fired Towards Positively Charged Plate LocatedUse Following Information Answer Next Question Three Charges Q1 6 C Q2 8 C Q3 9 C Placed Along StraiUse Following Information Answer Next Question Two Charged Balls Suspended Hinge Two Threads Equal LUse Following Information Answer Next Question Bob Pendulum Mass 100 G Equilibrium Horizontal UniforUse Following Information Answer Next Question Three Charges Placed Vertices Equilateral Triangle SiUse Following Information Answer Next Question Positive Charge Q Placed Centre Cube Side Cube 0 2 ElUse Following Information Answer Next Question Electric Field Intensity Point P Distance 0 30 CentreUse Following Information Answer Next Question Rod Carries Negative Charge Magnitude 2 4 10 8 C LengUse Following Information Answer Next Question Electric Field Intensity Vector Region Space Given ElUse Following Information Answer Next Question Electron Accelerated 30 Kv Cathode Ray Oscilloscope EUse Following Information Answer Next Question Charge Experiences Force 32 N Placed Certain DistanceForce Electron Alpha Particle Separated Distance 2 Use Following Information Answer Next Question Two Charges 2 C 8 C Placed 0 1 Apart Another Charge PUse Following Information Answer Next Question Two Charged Particles Located Distance 1 5 Force AttrUse Following Information Answer Next Question Two Positively Charged Particles Carrying Charge 3 6 Use Following Information Answer Next Question Two Charges Amount 5 C 5 C Located 0 05 Cm Apart FormUse Following Information Answer Next Question Electric Dipole Moment 7 2 10 8 C Placed Uniform ElecUse Following Information Answer Next Question Four Charges Q 2q 3q 4q Located Vertices Square Side Evaluate 40963 Evaluate 92613Mark Correct Answer Following Numbers Perfect Square 529 B 961 C 1024 1222Tick Correct Answer Following Numbers Perfect Square 7056 B 3969 C 5478 4624Find Product 3x 2y 4 X 2 Find Product X2 5x 8 X2 2 Subtract 5y4 3y3 2y2 1 4y4 2y3 6y2 5Add 6p 4q R 3 2r 5p 6 11q 7p 2r 1 2q 3r 4Sum Digits 2 Digit Number 6 Number Obtained Interchanging Digits 18 Original Number Find Original NuFind Possible Values 4 Digit Number 64y3 Divisible 9 Also Find Numbers Two Conducting Spheres Contain Charges Q1 Q2 Small Charge Removed Charge Q1 Transferred Charge Q2 ToCube Side Placed Xz Plane Represented Given Figure Electric Field Vector Given Net Flux Linked Cube Two Charged Balls Similar Nature Also Attract Comment Body Charged Mass Gets Changed Negligibly Comment Hemispherical Body Placed Uniform Electric Field E Represented Given Figure Flux Linked Curved SurfaDistance Two Electric Charges Doubled Much Force Exerting Changes Thin Conducting Spherical Shell Radius R Charge Q Spread Uniformly Surface Using Gauss Law Derive ExState Gauss Theorem Electrostatics Using Theorem Derive Expression Electric Field Intensity Points OState Gauss Theorem Electrostatics Using Theorem Derive Expression Electric Field Intensity Due InfiElectric Dipole Dipole Moment 20 10 6 Cm Enclosed Closed Surface Net Flux Coming Surface Define Electric Line Force Give Two Important Properties Electric Field Inside Dielectric Decrease Placed External Electric Field B Parallel Plate CapacitorName Physical Quantity Whose Si Unit Newton Coulomb Electric Flux Write Units Using Gauss Theorem Deduce Expression Electric Field Point Due Uniformly CElectric Field E Due Point Charge Point Near Defined Q Test Charge F Force Acting Physical SignificaForce Acting Two Point Electric Charges Q1 Q2 Kept Distance Apart Air Attractive Repulsive Q1q2 0 IiSpherical Gaussian Surface Encloses Charge 8 85 10 10c Calculate Electric Flux Passing Surface Ii WoDerive Expression Energy Stored Parallel Plate Capacitor Charging Parallel Plate Capacitor PotentialFigure Shows Three Point Charges 2q Q 3q Two Charges 2q Q Enclosed Within Surface Electric Flux Due State Gauss Law Electrostatics Using Law Derive Expression Electric Field Due Uniformly Charged InfiState Gauss Law Electrostatics Use Law Derive Expression Electric Field Due Infinitely Long StraightState Gauss Theorem Electrostatics Using Theorem Derive Expression Electric Field Intensity Due InfiDefine Term Dielectric Constant Medium 1 State Gauss Theorem Electrostatics Using Deduce Expression Electric Field Intensity Point Near Thin Electric Field Conservative Force Give Reasons Answer Describe Electric Field Lines Uniform Positive Line Charge Electric Field Exists Region Given Equation Electric Flux Area Lies Xy Plane Dipole Electric Dipole Moment Defined Uniform Electric Field Exists Region Shown Region Cone Placed Axis Perpendicular Direction Electric Thin Long Straight Wire Linear Charge Density Derive Expression Electric Field Distance R Wire Show Electric Dipole Kept Angle Direction Uniform Electric Field Experiences Zero Net Force B DeriveBob Mass Charge Q Set Oscillation Time Period Recorded Followed Equation Uniform Electric Field E ApQ Amount Positive Charge Spreadout Evenly Throughout Volume Conducting Sphere Shown Figure Charges BElectronic Charge 2 3 10 17 C Instead 1 6 10 19 C According Definition Electron Volt Value 1 Ev Body Given Charge 5 8 10 18 C Infinite Non Conducting Sheet Charge Density Far Apart Equipotential Surfaces Differ 50 V Given Figure Shows Two Protons One Electron Draw Directions Electrostatic Force Central Proton Due EElectrostatic Force Electron Proton Separated Distance 0 4 10 15 Electrostatic Shielding Isolated Conductor Arbitrary Shape Cavity Inside Wall Cavity Charged 20 C Inside Cavity Point ChargeCharge Q 8 85 C Placed Inside Cylindrical Surface Flux Surface Cylinder Cut Half Effect Dielectric Material Electric Field Reduce Original Electric Fields Similar Effect Take Place Magnitudes Terms Q1 Q2 Q3 R R Three Charges Positive Show Directions Two Charges Magnitude 3 C 1 5 CState Coulomb Law Vector Form Prove Ball Mass Charge Q Suspended Ceiling Shown Figure E Electric Field Plates Obtain Expression Angle Graphically Show Variation Magnitude Electric Field Due Charge Hollow Sphere Distance Centre Nature Electric Lines Force Inside Charged Conductor Consider Given Charge Distribution Magnitude Direction Electrostatic Force Q2 B State Principle SupeTwo Charged Balls Similar Nature Also Attract Comment Charges Q1 2 C Q2 4 C Located Coordinates 1 1 3 2 Respectively Put One Charge Q3 8 C Line Joining TwSuppose Slab Made Insulating Material Extended Infinitely Two Dimensions Thickness Shown Figure SlabConsider Disk Radius 7 Cm Surface Charge Density 5 3 C 2 Upper Face Magnitude Electric Field Due DisImage Sun Seen Without Screen Point P Distance R R Axis Cylinder Shown Volume Charge Density Radius Cylinder R Respectively ElectrTwo Equal Charges Q Placed Two Diagonally Opposite Vertices B Square Abcd Side Square Length Charge Two Free Charge 4q Q Placed Distance Apart Third Charge Q Placed Entire System Equilibrium RatioCharging Soap Bubble Volume Changes Refractive Index Medium Related Speed Light Obtain Expression Refractive Index Medium Respect AnotheCharged Rod Length 6 Linear Charge Density 2 X 10 6 C Electric Field Distance 6 Centre Rod Along AxiUse Following Information Answer Next Question Three Charges Placed Along Straight Line Length 10 ShUse Following Information Answer Next Question Two Charged Balls Suspended Hinge Two Threads Equal LUse Following Information Answer Next Question Electron Held Freely Application Uniform Electric FieUse Following Information Answer Next Question Three Charges Placed Vertices Equilateral Triangle SiUse Following Information Answer Next Question Electric Field Intensity Point P Distance 0 30 CentreUse Following Information Answer Next Question Electric Field Intensity Vector Region Space Given ElForce Electron Alpha Particle Separated Distance 2 Use Following Information Answer Next Question Two Charges 2 C 8 C Placed 0 1 Apart Another Charge PUse Following Information Answer Next Question Two Charged Particles Located Distance 1 5 Force AttrUse Following Information Answer Next Question Two Positively Charged Particles Carrying Charge 3 6 Use Following Information Answer Next Question Electric Dipole Moment 7 2 10 8 C Placed Uniform ElecUse Following Information Answer Next Question Four Charges Q 2q 3q 4q Located Vertices Square Side Use Following Information Answer Next Question Two Thin Metal Plates Placed Close Inner Side Plates Measuring Electric Field Always Use Small Charge Test Charge Describe Electric Field Lines Uniform Positive Line Charge Electric Field Exists Region Given Equation Electric Flux Area Lies Xy Plane Dipole Electric Dipole Moment Defined Charge Q 8 85 C Placed Inside Cylindrical Surface Flux Surface Cylinder Cut Half Graphically Show Variation Magnitude Electric Field Due Charge Hollow Sphere Distance Centre State Principle Super Position Uniform Electric Field Exists Region Shown Region Cone Placed Axis Perpendicular Direction Electric Thin Long Straight Wire Linear Charge Density Derive Expression Electric Field Distance R Wire Beginning Gauss Law Derive Coulomb Law State Properties Electric Field Lines Magnitudes Terms Q1 Q2 Q3 R R Three Charges Positive Show Directions Positively Charged Particle Always Move Direction Electric Field Justify Answer Show Electric Dipole Kept Angle Direction Uniform Electric Field Experiences Zero Net Force Derive Expression Torque Acting Dipole Placed Uniform Electric Field State Coulomb Law Vector Form Prove Prove Electric Field Intensity Point Due Infinite Sheet Charge Independent Distance Infinite Sheet CGiven System Equilibrium Making System Equilibrium Third Charge Placed Somewhere Line Joining ChargeBall Mass Charge Q Suspended Ceiling Shown Figure E Electric Field Plates Obtain Expression Angle Define Dipole Moment Electric Dipole Give Unit Derive Expression Electric Field Point Axis Dipole Meant Grounding Process Neutron Decay Follow Law Conservation Charge Explain Many Electrons Contained 1 C Charge Define One Coulomb Given Figure Shows Two Protons One Electron Draw Directions Electrostatic Force Central Proton Due ETwo Electric Field Lines Never Intersect State Direction Electron Moves Electric Field Nature Electric Lines Force Inside Charged Conductor Configuration Electric Dipole Electric Field Makes Experience Maximum Torque Configuration Electric Dipole Stable Electric Field State Si Unit Surface Integral Electric Field Value Dielectric Constant Metal Substance Infinite Dielectric Constant Said Conductance Gaussian Surface Around Infinitely Long Charged Wire Usually Drawn Cylinder Enclosing Shape Gaussian Surface Associated Point Charge Body Given Charge 5 8 10 18 C State Conditions Two Similarly Charged Balls Attract One Another Electrostatic Force Electron Proton Separated Distance 0 4 10 15 Electrostatic Shielding Two Changes Magnitude 3 C 1 5 C Separated Distance 12 Cm Magnitude Force Charge Dipole Moment Pair Changes 6 C Separated Distance 10 Mm Much Work Done Maintain Electric Dipole Moment 6 10 8 Cm Angle 60 Electric Field Magnitude 1 2 104 NElectric Flux Associated Given Surface Charge Q Sphere Net Charge Q Enclosed Point Charge Q Centre Sphere Radius R Mutual Electrostatic Force ExperiTotal Charge Associated 50 Kg Electrons Combined Charge Two Charged Spheres 50 C Spheres Experience Repulsive Electrostatic Force 1 N 2 AparCharge Q Divided Two Parts Q Q Q Two Parts Separated Certain Distance Value Q Electrostatic RepulsioTwo Balls Mass Charge Q Suspended Using Non Conducting Threads Length L Shown Given Figure Assuming Compare Electrostatic Gravitational Forces Two Electrons Separated Distance 10 10 Object Charge 12 C Placed Uniform Electric Field 560 N C Observed Floats Field Calculate Mass ObjectConsider Given Charge Distribution Shown Figure Resulting Electric Field Point P Total Charge Cavity Wall Calculate Charge Outer Surface Conductor Deduce Coulomb Law Gauss Law Prove Gauss Law Arbitrary Shaped Gaussian Surface Permittivity Water Dielectric Constant 80 Give Reasons Following Electric Lines Force Emanate Normally Surface Charged Conductor Distance Two Point Charges Experience Electrostatic Force 5 6 N Two Fixed Identical Spherical Conductors Mutual Electrostatic Force Attraction 0 108 N Separated CenSmallest Unit Free Charge Consider Given Charge Distribution Magnitude Direction Electrostatic Force Q2 State Principle Superposition Electric Fields Small Ball Mass 10 Mg Charge Q 0 3 C Suspended Non Conducting Thread Thread Makes Angle 30 Vertical Electric Flux Total Charge Sphere Field Inside SphereSi Unit Electric Charge Positively Charged Object Brought Near Uncharged Object ResultsUse Following Information Answer Next Question Glass Rod Rubbed Silk Cloth Rod Acquires Positive ChaUse Following Information Answer Next Question Balloon Positively Charged Another Balloon Brought NeTwo Objects Charged Friction Nature Charges Acquired Objects DependsUse Following Information Answer Next Question Patrick Places Negatively Charged Ball Contact UncharUse Following Information Answer Next Question Positively Charged Body Brought Near Neutral Body GetForce Responsible Repulsion Two Rubbed Balloons CalledFollowing Natural Phenomena Caused Transfer Charges Movement Charges Whenever Imbalance Charges Occurs CalledUse Following Information Answer Next Question Positively Charged Ball Brought Near Wooden Stand ChaUse Following Information Answer Next Question Uncharged Object Touched Positively Charged Metal RodFollowing Diagrams Correctly Represents Distribution Charges Transfer Electric Charges Charged Uncharged Body Metal Wire KnownForce Acts Comb Dry Hair Use Following Information Answer Next Question Ball Carries 2q Charge Placed Near Infinitely Large PMetallic Body Charged Induction Magnitude Charge Induced BodyUse Following Information Answer Next Question Uncharged Plate Placed Near Charged Plate Shown FigurUse Following Information Answer Next Question Candice Learns School Lightning Caused Static CurrentUse Following Information Answer Next Question Uncharged Glass Rod Rubbed Uncharged Silk Cloth Rod BUse Following Information Answer Next Question Uncharged Glass Rod Rubbed Uncharged Silk Cloth Rod BUse Following Information Answer Next Question Positively Charged Block Placed Near Uncharged MetallUse Following Information Answer Next Question Four Charged Bodies B C Charges Q 2q 3q 4q RespectiveUse Following Information Answer Next Question Positively Charged Block Placed Near Uncharged MetallUse Following Information Answer Next Question Positively Charged Block Placed Near Uncharged MetallUse Following Information Answer Next Question Four Point Charges B C Shown Figure Placed Four DiffeUse Following Information Answer Next Question Electric Charge Supplied Continuously Conducting BlocUse Following Information Answer Next Question Isolated Metallic Rod Ab Shown Figure Carries UniformUse Following Information Answer Next Question Uncharged Gold Leaf Electroscope Consists Disc Rod R Use Following Information Answer Next Question Uncharged Gold Leaf Electroscope Consists Disc Rod R Use Following Information Answer Next Question Spherical Conducting Shell Radius R Surface Charge DeUse Following Information Answer Next Question Spherical Conducting Shell Radius R Surface Charge DeUse Following Information Answer Next Question Point P Distance R R Axis Cylinder Volume Charge DensUse Following Information Answer Next Question Point P Distance R R Axis Cylinder Volume Charge DensGraph Represents Variation Electric Field Distance Axis Uniformly Charged Conducting Cylinder RadiusUse Following Information Answer Next Question Electric Charge Q Placed Centre Open End Cylinder RadUse Following Information Answer Next Question Long Metallic Cylinder Radius R1 Linear Charge DensitUse Following Information Answer Next Question Arbitrary Surface Area Surrounds Charge Q Inside ShowUse Following Information Answer Next Question Charged Particle Mass 8 G Charge 1 Mc Held Rest FrictUse Following Information Answer Next Question Two Equal Charges Q Placed Vertices B Square Abcd ShoSoap Bubble Negatively Charged RadiusMaximum Force Two Points Fixed Space Distance Total Available Change Q Unit Electric Flux Si UnitsForce Two Short Electric Dipoles Separated Distance R VariesPotential Uniformly Charged Spherical Shell Radius R Drawn Graph Shows Correct Variation Potential DUse Following Information Answer Next Question Spherical Conductor Placed Concentrically Inside AnotUse Following Information Answer Next Question Electron Placed Distance 3 Point Charge Placed OriginCorrect Form Coulomb LawUse Following Information Answer Next Two Questions Corner Regular Hexagon Side L Six Equal Charges Charge Point Removed Direction Force Acting Q Use Following Information Answer Next Question Two Free Charge 4q Q Placed Distance Apart Third CharUse Following Information Answer Next Question Two Small Spheres Carrying Charges 4 C 12 C SeparatedUse Following Information Answer Next Question Electric Field Strength Present Region 10 Nc 1 ElectrRadius Uniformly Charged Solid Spherical Conductor Total Charge Q R Charge Density Point Inside CondUse Following Information Answer Next Question Long Cylindrical Co Axial Cable Uniform Volume ChargeUse Following Information Answer Next Question Hollow Spherical Shell Inner Radius Outer Radius B CaHollow Sphere Contains Charge 600 C Radius Sphere 4 Electric Field Strength SurfaceElectric Dipole Consists Two Charge E E Separated 2 Dipole Moment Charge Electron E 1 6 10 19 C 1 10Use Following Information Answer Next Question Uncharged Spherical Conductor Placed Way Centre CoincUse Following Information Answer Next Question Current Carrying Loop Placed Symmetrically Around CabOne Coulomb Point Charge Placed 1 Away Equal Similar Charge Vacuum Effective ForceCharge 4 C Placed Centre Cube Side 2 Cm Electric Flux One Face CubeSymbols Standard Meaning Expression Electric Field Gaussian UnitsOne Following Statements Concerning Electric Lines Force Correct One Following Diagrams Correct Representation Uniform Electric Field Use Following Information Answer Next Question Cube Placed Uniform Electric Field Strength E Shown FMinimum Value Charge Charged BodySi System Permittivity 0 VacuumVariation Electric Field E Due Infinite Uniformly Charged Plane Varies Distance Plate RElectric Dipole Placed Electric Field Torque Acting DipoleElectron Initial Velocity Normal Electric Field Path ElectronUse Following Information Answer Next Question Electron Moving Toward Two Proton System Shown Given Following Statements Electric Field Lines Correct Use Following Information Answer Next Question Two Charges Magnitudes 4 C 9 C Separated Distance 1 PUse Following Information Answer Next Question Two Charges 1 3 Magnitude Kept Horizontal Line Shown Use Following Information Answer Next Question Negatively Charged Rod Held Near Earthed Conductor X Field Acting Flowing ChargesUse Following Information Answer Next Question Positively Charged Conductor Carrying Charge Q PlacedUse Following Information Answer Next Question Positively Charged Conductor Carrying Charge Q PlacedUse Following Information Answer Next Question Gas Discharge Tube Total Electric Charge Flowing Per Use Following Information Answer Next Question Charged Metallic Sphere Radius 1 Cm Suspended Nylon TUse Following Information Answer Question Particle Mass Charge Q Connected Vertical Infinitely Long Three Equal Charges Placed Three Vertices Triangle Net Force Charged Particle Zero PlacedUse Following Information Answer Next Question Electron Falls Distance 1 5 Cm Uniform Electric FieldHydrogen Atom Placed Uniform External Electric Field Directed Toward RightUse Following Information Answer Question Right Circular Cylinder Length 20 Cm Radius 5 Cm Centre OrUse Following Information Answer Next Question Early Model Atom Considered Positively Charged Point Use Following Information Answer Next Question Five Balls Numbered 1 5 Suspended Using Separate ThreTest Charge Q Placed Center Conducting Cubical Shell Placed Uniform Electric Field ParticleUse Following Information Answer Next Question Boy Playing Soap Bubbles Notices Size Particular BubbUse Following Information Answer Next Question Florida City Hit Thunder Storm Four Friends ReturningUse Following Information Answer Next Question Two Concentric Spheres Larger Two Spheres Charged 2q Use Following Information Answer Next Question Four Point Charges Magnitude Q Placed Four Corners SqPoint Charge Air Separated Distance X Another Point Charge Air Experiences Force Repulsion F FollowiUse Following Information Answer Next Question Two Small Metal Spheres B Size Given Charge Q Placed Charge Q Divided Two Conducting Spheres Value Charges Two Spheres Force Maximum Placed Close Air Use Following Information Answer Next Question Figure Shows Three Parallel Equally Spaced Large MetaUse Following Information Answer Next Question Electric Dipole Moment P Placed Position Stable EquilUse Following Information Answer Next Question Test Charge Situated Certain Distance Electric DipoleCharge Q Placed Centre Closed Cylindrical Vessel Flux Electric Field Surface VesselCharge Q Placed Distance 2 Centre Horizontal Square Surface Edge Length Flux Square SurfaceUse Following Information Answer Next Question Two Concentric Hollow Metal Spheres Radii R1 R2 OuterCharge Q Well Distributed Metal Ring Radius R Following Graphs Illustrates Variation Electric IntensUse Following Information Answer Next Question Two Identical Metallic Spheres B Carrying Charge Q ReElectric Dipole Placed Non Uniform Electric Field ExperienceUse Following Information Answer Next Question Charge Situated Certain Distance Electric Dipole AlonUse Following Information Answer Next Question Radii Three Thin Concentric Metal Shells B C B C RespUse Following Information Answer Next Question Four Particles Allowed Pass Region Uniform Electric FUse Following Information Answer Next Question Liquid Drop Mass 1 G Charge 0 1 C Placed Uniform ElecUse Following Information Answer Next Question Two Equal Point Charges Kept Vertices Base EquilateraFollowing Charge Distributions Produces Region Uniform Electric Field Conducting Spherical Shell Surface Charge Density Electric Field Inside Ein Outside Eout ShellUse Following Information Answer Next Question Charged Particle Moving Around Another Charged ParticUse Following Information Answer Next Question Small Circular Disc Removed Surface Large Charged SphTwo Identical Conducting Balls Charge Q Polarity Hang Peg Ceiling Non Conducting Threads Length L FiElectric Field Origin Due Distribution Similar Polarity Charges Find Electric Field Set Consecutive Charges Opposite Signs Three Identical Charges Placed Three Corners Square Direction Electric Field Vacant Corner SquareConsider Disk Radius 7 Cm Surface Charge Density 5 3 Cm 2 Upper Face Magnitude Electric Field Due DiUse Following Information Answer Next Question Consider Following Statements Regarding Charged ConduUse Following Information Answer Next Question Motion Electron Around Nucleus Atom Electron Effect PFollowing Statements Correct Regarding Gold Leaf Electroscope Use Following Information Answer Question Fur Rubbed Ebonite Rod Fur Acquire Charge Ebonite Rod AcquFollowing Statements Incorrect Regarding Charging Friction Use Following Information Answer Question Gold Leaf Electroscope Used Following Information CompleteUse Following Information Answer Question Glass Rod Rubbed Silk Cloth Glass Rod Acquire Charge Silk Following Changes Occur Mass Body Body Charged Induction Two Charges Magnitudes 2q Q Located Points 0 4a 0 Respectively Electric Flux Due Charges Sphere Radi Define Electric Dipole Moment Scalar Vector Derive Expression Electric Field Dipole Point EquatoriaTwo Charges Magnitudes 3q 2q Located Points 0 4a 0 Respectively Electric Flux Due Charges Sphere Rad Define Electric Dipole Moment Scalar Vector Derive Expression Electric Field Dipole Point EquatoriaTwo Charges Magnitudes 4q Q Located Points 0 3a 0 Respectively Electric Flux Due Charges Sphere Radi Define Electric Dipole Moment Scalar Vector Derive Expression Electric Field Dipole Point EquatoriaDefine Dipole Moment Electric Dipole Scalar Vector State Gauss Law Electrostatics Cube Side Kept Electric Field Given C L Shown Figure C Positive DimenDefine Dipole Moment Electric Dipole Scalar Vector State Gauss Law Electrostatics Cube Side Kept Electric Field Given C L Shown Figure C Positive DimenCharge Q Placed Centre Cube Side L Electric Flux Passing Face Cube Charge Q Placed Centre Cube Side L Electric Flux Passing Two Opposite Faces Cube Given Uniform Electric Filed E 4 103 N C Find Flux Field Square 5 Cm Side Whose Plane Parallel Z PlaGiven Uniform Electric Field E 2 103 N C Find Flux Field Square Side 20 Cm Whose Plane Parallel Z PlGiven Uniform Electric Field E 5 103 N C Find Flux Field Square 10 Cm Side Whose Plane Parallel Z PlElectric Field Lines Never Cross Electrostatic Field Lines Form Closed Loops Two Equal Balls Equal Positive Charge Q Coulombs Suspended Two Insulating Strings Equal Length WouldElectric Flux Cube Side 1 Cm Encloses Electric Dipole Electric Dipole Dipole Moment P Consists Point Charges Q Q Separated Distance 2a Apart Deduce ExpreElectric Flux Cube Side 1 Cm Encloses Electric Dipole Electric Dipole Dipole Moment P Consists Point Charges Q Q Separated Distance 2a Apart Deduce ExpreField Lines Negative Point Charge Shown Figure Kinetic Energy Small Negative Charge Increase DecreasElectric Flux Cube Side 1 Cm Encloses Electric Dipole Use Mirror Equation Show Object Placed F 2f Concave Mirror Produces Real Image Beyond 2f Find Expres Electric Dipole Dipole Moment P Consists Point Charges Q Q Separated Distance 2a Apart Deduce ExpreWrite Expression Torque Acting Dipole Dipole Moment P Placed Electric Field E Small Conducting Sphere Radius R Carrying Charge Q Surrounded Large Concentric Conducting Shell RadField Lines Negative Point Charge Shown Figure Kinetic Energy Small Negative Charge Increase DecreasElectric Flux Due Point Charge Enclosed Spherical Gaussian Surface Get Affected Radius Increased Charge Distributed Uniformly Ring Radius Obtain Expression Electric Intensity E Point Axis Ring HencDefine Electric Flux Write Si Unit Define Torque Acting Dipole Dipole Moment P Placed Uniform Electric Field E Express Vector Point Di Point Charge Q Moving Speed V Enters Uniform Magnetic Field B Acting Plane Paper Shown Path Followe Drive Expression Electric Field Point Equatorial Line Electric Dipole Ii Depict Orientation Dipole Obtain Expression Torque Experienced Electric Dipole Dipole Moment P Uniform Electric Field E Ii HaCurrent Steady State Flow Capacitor Connected Across Battery However Momentary Current Flow Charging Derive Expression Electric Field E Due Dipole Length 2a Point Distant R Center Dipole Axial Line B State Biot Savart Law Express Law Vector Form B Two Identical Circular Coils P Q Radius R Carrying Magnifying Power Microscope Depend Colour Light Used Justify Answer Distinguish Broadcast Mode Point Point Mode Communication Give One Example Light Bulb Solenoid Connected Series Across Ac Source Voltage Explain Glow Light Bulb Affected Iron Sunil Parents Travelling Village Car Way Mother Noticed Grey Coloured Panels Installed Roof Low BuilUsing Gauss Law Electrostatics Deduce Expression Electric Field Intensity Due Uniformly Charged Infi Derive Relation Decay Constant Half Life Radioactive Substance B Radioactive Element Reduces 25 IniCharge Q Distributed Uniformly Metallic Sphere Radius R Obtain Expressions Electric Field E Electric Draw Plot Showing Variation Photoelectric Current Collector Potential Different Frequencies Intensi State Faraday Law Electromagnetic Induction B Magnetic Field Circular Loop Wire 12 Cm Radius 8 5 ReThree Charges Placed Vertices Equilateral Triangle Side Shown Following Figure Force Experienced ChaFour Point Charges Q Q Q Q Placed Corners Square Side Shown Figure Find Resultant Electric Force Cha Define Electric Flux Scalar Vector Quantity Point Charge Q Distance 2 Directly Centre Square Side S Draw Equipotential Surfaces Corresponding Electric Field Uniformly Increases Magnitude Along Z DireDraw Pattern Electric Field Lines Point Charge Q Kept Near Uncharged Conducting Plate Draw Pattern Electric Field Lines Point Charge Q Kept Near Uncharged Conducting Plate Two Metallic Spheres B Kept Insulating Stands Contact Positively Charged Rod P Brought Near Sphere SFive Point Charges Charge Q Placed Five Vertices Regular Hexagon Side L Find Magnitude Resultant ForTwo Identical Conducting Balls B Charges Q 3q Respectively Brought Contact Separated Distance Apart Apply Gauss Law Show Charged Spherical Shell Electric Field Outside Shell Entire Charge ConcentratedTwo Charges Equal Magnitude Opposite Sign Put Together Small Distance System Called Force Two Charges Charge 1 10 7 C 2 10 7 C Placed Distance 15 CmElectric Field Due Dipole Equatorial Plane Electric Field Due Dipole Dipole Axis Distance Point Electric Flux Closed Gaussian Surface Depends Upon Net Charge Enclosed Permittivity Medium B Net ChaPoint Charge Placed Centre Hollow Conducting Sphere Internal Radius R Outer Radius 2r Ratio Surface Physical Quantity Si Unit Nc 1m State Gauss Law Electrostatics Drive Expression Electric Field Due Long Straight Thin Uniformly Cha State Gauss Law Electrostatics Derive Expression Electric Field Due Long Straight Thin Uniformly ChAttempt 4 Sub Parts Following Question Sub Part Carries 1 Mark Phenomenon Making Region Free ElectriQuestion Numbers 11 12 13 14 Two Statements Given One Labeled Assertion Labeled Reason R Select CorrCloud Unleash Lightning Bolt Charge 12 C Cloud Started Electrically Neutral Many Electrons Removed GRub Glass Rod Silk ClothMetal Given Charge 6 4 10 9 C Number Electrons Added Metal Increase Mass Metal Respectively Two Charges Charge 2 C Placed Distance Metres Located 2j 2k 4 J 4 K Electrostatic Force ActingGiven Figure Equal Charges 2 C Placed Points Q P Square Side 1 Electric Field Point RThree Charges 1 C Placed Vertices Equilateral Triangle Side Length 2 Charge Q Magnitude 7 10 10 C PlElectric Dipole Moment 10 7 Cm Aligned 30o Direction Uniform Electric Field Magnitude 2 104 N C MagnNet Positive Charge Enclosed Within Given SphereNegative Charge 200 Pc Added Given Sphere Net Electric Flux Sphere Would BecomeAdditional Positive Charge Magnitude 200 Pc Added Given Positively Charged Sphere Electric Field Sph