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Stars Twinkle Define Average Power Two Properties Carbon Lead Huge Number Carbon Compounds See Around Us Division Among Plants Simplest Organisms Pteridophytes Different Phanerogams Sun Appear Reddish Early Morning Gymnosperms Angiosperms Differ Formula Electron Dot Structure Cyclopentane Sky Appear Dark Instead Blue Astronaut Magnetic Needle Initially Lying Parallel Magnetic Field Lines Turns Angle 30 W Amount Work Done TorqGiven Figure Pq Rs Two Mirrors Placed Parallel Incident Ray Ab Strikes Mirror Pq B Reflected Ray MovPqr Right Angled Q Pr Qr 25 Cm Pq 5 Cm Determine Values Sin P Cos P Tan P Identify Following Pairs Angles Complementary Supplementary 65 115 Ii 63 27 Iii 112 68 Iv 130 50 V 4Find Angle Equal Complement Diagonal Line Segment Joins Two Vertices Polygon Side Polygon Draw Rough Sketch Pentagon Draw DiagonDivide Polynomial P X Polynomial G X Find Quotient Remainder Following Ii Iii State Whether Following True False Justify Answer Value Tan Always Less 1 Ii Sec Value 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Would Required MaintaiMagnetic Lines ForceCurie Temperature Iron 740oc Following Statements Iron Correct Following Strips Become Superconductor Cooled Room Temperature Critical Temperature Magnetic Lines Force Said Close Loops Originate North Pole Bar Magnet Terminate South Pole Magnetic Ferromagnetic Paramagnetic Material Heated Curie Temperature Following Statements Correct CConsider Permanent Magnet Magnet Hammered Happen Magnetism Magnet Bar Magnet Initially Lying Parallel Magnetic Field Lines Turns Angle 60 W Amount Work Done Torque NeCore Current Carrying Toroid Filled Cerium Magnetic Susceptibility Cerium Percentage Increase MagnetMagnetic Susceptibility Material Temperature 25 C 350 Temperature Susceptibility Would Becomes TwiceLong Solenoid 5000 Turns Per Metre Carries Current 4 Long Cylindrical Iron Bar Cross Sectional Area Bar Magnet Placed Non Uniform Magnetic Field ExperienceMagnetic Susceptibility Aluminium 290 K 2 5 10 5 Magnetic Intensity Aluminium 2000 Magnetization 400Surface Earth Angle Dip Zero Two Identical Magnets Mass 9 G Length 10 Cm Arranged One Made Float Restraining Magnets Rotate Find Atom Iron Cuboid 0 02 0 02 0 05 Got Magnetic Dipole Moment 2 10 23 M2 Magnetic Dipole Moment Bar MagUse Following Information Answer Next Question Magnetic Compass Placed North Poles Two Bar Magnets EUse Following Information Answer Next Question Two Horse Shoe Magnets Kept Close One Another Shown GMagnet Freely Suspended Place Angle Dip 30o Total Intensity 0 3 Gauss Makes 20 Oscillations Per MinuUse Following Information Answer Next Question Given Figure Shows Two Bar Magnets Strength Placed AlUse Following Information Answer Next Question Bar Magnet Dropped Inside Vertically Held Solenoid CuBar Magnet Dipole Moment Length L Cut Two Equal Parts L 2 One Pieces Cut Two Equal Pieces Cross SectAngle Dip Place 60o Horizontal Component Magnetic Field 0 3 Oersted Earth Total Magnetic Field Relative Permeability Paramagnetic SubstanceCoil Radius 0 2 50 Turns Placed Plane Parallel External Magnetic Field 0 5 Wb 2 Current Coil 2 Find Use Following Information Answer Next Question Short Bar Magnet Placed Uniform Magnetic Field 0 6 MaUse Following Information Answer Next Question Magnetic Moment 90 G Magnet 6 5 M2 Density 8900 Kg M3Long Straight Steel Wire Magnetic Moment 4 108 J 1 Wire Bent Form Semi Circular Arc Change Magnetic Horizontal Component Earth Magnetic Field Place 0 4 G Total Magnetic Field Point 0 65 G Angle Dip PlUse Following Information Answer Next Question Pair Magnetic Poles One Five Times Stronger Force ExeUse Following Information Answer Next Question Magnetizing Field Magnitude 1 5 103 1 Produces MagnetUse Following Information Answer Next Question Tungsten Susceptibility 6 8 10 5 Room Temperature 27 Small Positive Number Susceptibility Following Relations Corresponds Paramagnetic Materials Use Following Information Answer Next Question Two Bars Bar 1 Bar 2 Kept Close Toy Car Inside Toy CaUse Following Information Answer Next Question Hysteresis Loop Ferromagnetic Material Shown Given FiUse Following Information Answer Next Question Magnetizing Soft Iron Piece Compared Magnetising SteeMagnetic Moment Magnetic Dipole 1 2 10 2 M2 Strength Poles 0 6 Magnitude Magnetic Force Poles Use Following Information Answer Next Question Length Bar Magnet 20 Cm Magnetic Moment 0 42 J 1 MagnUse Following Information Answer Next Question Short Bar Magnet Placed Uniform Magnetic Field StrengUse Following Information Answer Next Question Given Figure Shows Bar Magnet Length L Two Points P QTick Correct Answer Least Number 648 Multiplied Get Perfect Cube 3 B 6 C 9 8Evaluate 13313Evaluate 643Tick Correct Answer Following Numbers Perfect Square 1156 B 4787 C 2704 3969Find Product 9x2 X 15 X2 X 1 Two Adjacent Sides Rectangle 5x2 3y2 X2 2xy Find Perimeter Paramagnetic Substance Placed Uniform Magnetic Field Magnetic Field LinesUse Following Information Answer Next Question 30 Cm Long Bar Magnet Pole Strength 8 6 Placed MagnetUse Following Information Answer Next Question Horizontal Component Earth Magnetic Field Place 20 10Magnetostriction Effect Write One Application Effect Length Iron Bar Change Magnetized Time Period Ion Cyclotron Magnetic Field 3 5 38 Ns Specific Charge Ion Explain Help Diagram Terms Magnetic Declination Ii Angle Dip Given PlaceUniform Magnetic Field Gets Modified Shown Two Specimens X Placed Identify Two Specimens X Ii State Define Terms Magnetic Dip Magnetic Declination Help Relevant Diagrams Vertical Component Earth Magnetic Field Place Times Horizontal Component Value Angle Dip Place Material Used Making Permanent Magnets High Coercivity Define Magnetic Susceptibility Material Name Two Elements One Positive Susceptibility Negative SusceFollowing Figure Shows Variation Intensity Magnetisation Versus Applied Magnetic Field Intensity Hj Write Two Characteristics Material Used Making Permanent Magnets Ii Core Electromagnet Made FerromaWrong Given Diagram Give Reasons Answer Mean Magnetic Equator Position Remain Fixed Respect Time Average Magnetic Field Parallel Average Magnetic Dipole Moment According Equation Explain Direction Magnetic Needle Magnetic Moment 3 6 10 2 M2 Moment Inertia 7 1 10 5 Kg M2 Placed Magnetic Field StreState Gauss Law Magnetism Explain Leads Conclusion Magnetic Monopoles Exist Magnetic Field Lines Similar Electric Field Lines Different Closed Gaussian Surface Shape Right Circular Cylinder Radius 12 Cm Length 60 Cm One End Cylinder UniFerromagnetic Material Placed Gradually Increasing External Magnetic Field Using Domain Theory DiagrSolenoid Cross Sectional Area 3 10 4 M2 800 Turns Placed Axis 45 External Magnetic Field 900 G ExperMagnet Brought Close Iron Nails Nails Streaking Rotate Well Translate B Vertical Component Earth MagState Mathematical Expression Tangent Law Magnetism Define Bar Magnet Draw Magnetic Lines Force Illustrate Set Oersted Experiment Help Diagram Earth Existing Magnetic Field Considered Due Large CiState Two Differences Magnetic Dipole Electric Dipole Short Bar Magnet Placed Uniform Magnetic Field 0 8 Magnetic Moment Magnet 1 2 Am2 Amount Work RequirMagnetic Monopoles Existed Nature Maxwell Equation Would Undergo Change Illustrate Hysteresis Loop Soft Iron Steel Basis Permanent Magnetic Dipole Moments Classify Paramagnet Diamagnet Freely Suspended Magnet Found Hang South Pole Dipped Downwards Angle Inclination Place 40 HemisphereMagnetic Flux Linkage Isogonic Lines B Agonic Lines C Isoclinic Lines Aclinic Lines Certain Material Used Core Solenoidal Electromagnet Remanence B Coercivity Material Chosen Use ElectHysteresis Curves Two Materials Shown Given Figure Two Materials Choose Making Permanent Magnet Resistivities Metals Semiconductors Vary Temperature Given Graph Shows Magnetization Curve Paramagnetic Salt Graph Represent Curie Law Paramagnetism B NeShip Reach Place 15 South West Respect Starting Point Declination Starting Point 19 West Direction SDefine Terms Magnetic Dip Magnetic Declination Help Relevant Diagrams Following Figure Shows Variation Intensity Magnetisation Versus Applied Magnetic Field Intensity Hj Uniform Magnetic Field Gets Modified Shown Two Specimens X Placed Identify Two Specimens X Ii State Freely Suspended Magnet Found Hang South Pole Dipped Downwards Angle Inclination Place 40 HemisphereMention Two Uses Electromagnets Thin Rectangular Magnet Suspended Period Oscillation 16 Magnet Broken N Equal Pieces Perpendicular LDraw Ray Diagrams Showing Image Formation Concave Lens Object Placed Focus Lens B Focus Twice Focal Use Following Information Answer Next Question Short Bar Magnet Placed Uniform Magnetic Field 0 6 MaUse Following Information Answer Next Question Horizontal Component Earth Magnetic Field Place 20 10Use Following Information Answer Next Question Magnetic Moment 90 G Magnet 6 5 M2 Density 8900 Kg M3Use Following Information Answer Next Question Long Straight Steel Wire Magnetic Moment 4 108 J 1 WiUse Following Information Answer Next Question Horizontal Component Earth Magnetic Field Place 0 4 GUse Following Information Answer Next Question Pair Magnetic Poles One Five Times Stronger Force ExeUse Following Information Answer Next Question Magnetizing Field Magnitude 1 5 103 1 Produces MagnetUse Following Information Answer Next Question Tungsten Susceptibility 6 8 10 5 Room Temperature 27 Small Positive Number Susceptibility Following Relations Corresponds Paramagnetic Materials Use Following Information Answer Next Question Magnetic Specimen Kept Uniform External Magnetic FielUse Following Information Answer Next Question Hysteresis Loop Ferromagnetic Material Shown Given FiUse Following Information Answer Next Question Magnetizing Soft Iron Piece Compared Magnetising SteeUse Following Information Answer Next Question Magnetic Moment Magnetic Dipole 1 2 10 2 M2 Strength Use Following Information Answer Next Question Length Bar Magnet 20 Cm Magnetic Moment 0 42 J 1 MagnUse Following Information Answer Next Question Short Bar Magnet Placed Uniform Magnetic Field StrengUse Following Information Answer Next Question Given Figure Shows Bar Magnet Length L Two Points P QBasis Permanent Magnetic Dipole Moments Classify Paramagnet Diamagnet Give Example Situation Magnet Placed Magnetic Field Experiences Magnetic Force Torque Wrong Given Diagram Give Reasons Answer Mean Magnetic Equator Position Remain Fixed Respect Time Average Magnetic Field Parallel Average Magnetic Dipole Moment According Equation Explain Direction Surface Earth Angle Dip 90 Hysteresis Curves Two Materials Shown Given Figure Two Materials Choose Making Permanent Magnet Two Materials One Use Making Core Electromagnet Magnetic Needle Magnetic Moment 3 6 10 2 M2 Moment Inertia 7 1 10 5 Kg M2 Placed Magnetic Field StreState Gauss Law Magnetism Explain Leads Conclusion Magnetic Monopoles Exist Short Bar Magnet Placed Uniform Magnetic Field 0 8 Magnetic Moment Magnet 1 2 M2 Amount Work RequireIsogonic Lines Agonic Lines Isoclinic Lines Aclinic Lines Effect Dielectric Material Electric Field Reduce Original Electric Fields Similar Effect Take Place Magnetic Field Lines Never Cross Magnetisation External Applied Field Related Magnetic Material Cores Electromagnets Made Ferromagnetic Materials Ferromagnetic Materials Used Making Cores ElectromMagnetic Field Lines Similar Electric Field Lines Different Closed Gaussian Surface Shape Right Circular Cylinder Radius 12 Cm Length 60 Cm One End Cylinder UniHemisphere Place Situated Ratio Vertical Horizontal Components Earth Magnetic Field Place Face Die Labelled Number N N 1 2 3 6 N 1 N 5 Magnetic Flux N Face Equal Labelled Number N AssociatedGiven Graph Shows Magnetization Curve Paramagnetic Salt Graph Represent Curie Law Paramagnetism Net Magnetic Moment Paramagnetic Material Significantly Lesser N Remanence Coercivity Material Chosen Use Electromagnet Area Hysteresis Loop Affect Performance Core Placed Inside Electromagnet Ferromagnetic Material Placed Gradually Increasing External Magnetic Field Using Domain Theory DiagrAnswer Following Questions Soft Iron Core Solenoidal Electromagnet Soft Iron Enhance Performance EleSolenoid Cross Sectional Area 3 10 4 M2 800 Turns Placed Axis 45 External Magnetic Field 900 G ExperMagnetic Monopoles Existed Would Gauss Law Magnetism Modified Given Freely Suspended Current Carrying Solenoid Align Equator Explain Significance Gauss Law Applied Magnetism State Basic Difference Electric Magnetic Lines Force Magnet Without Pole Si Unit Dipole Moment Magnet Magnetization Paramagnetic Material Change Applied Magnetic Field Surface Earth Vertical Component Earth Magnetic Field ZeroState Mathematical Expression Tangent Law Magnetism Test Whether Object Magnetized State Angles Declination Dip South Pole Earth Magnetic Dip Magnetic Inclination Relative Magnetic Permeability Magnetic Susceptibility Material Related Differenciate Diamagnetic Paramagnetic Materials Kind Substances Preferred Making Electromagnets State Reason Diamagnetic Property Materials Superconductors Behave Towards External Magnetic Field State Two Differences Magnetic Dipole Electric Dipole State Expression Gauss Law Applied Magnetism Give Outcome Expression Define Bar Magnet Draw Magnetic Lines Force Hysteresis Illustrate Hysteresis Loop Soft Iron Steel Material Used Making Permanent Magnets Different Used Making Electromagnets State Curie Law Magnetism State Four Characteristics Diamagnetic Materials Two Magnetic Field Lines Intersect Justify Answer Earth Magnetic Elements Steel Wire Magnetized Give Pole Strength 0 3 Bent Form Semi Circle Calculate Magnetic Moment Length Two Magnetic Poles One Three Times Stronger Exert Force 100 Gfon Placed Distance 10 Cm Find StrengthCircular Coil 200 Turns Effective Radius 5 Cm Carries Current 0 2 Coil Placed External Magnetic FielSmall Bar Magnet Pole Strength 50 Am2 Lying Table Find Magnetic Field Point 0 2 Away Centre Magnet PVertical Component Earth Magnetic Field Point Times Horizontal Component Find Angle Dip Point Wire Length L Carries Current Show Wire Made Circular Coil Maximum Torque Given Field B Coil One TurSolenoid 400 Turns Per Metre Carrying Current 5 Iron Core Relative Permeability 5000 Determine MagniMagnetic Susceptibility Magnesium 300 K 1 2 10 5 Temperature Susceptibility 1 5 10 5 Hysteresis State Use Hysteresis Curve Magnetic Lines Force Prefer Pass Ferromagnetic Materials Repelled Diamagnetic Materials Illustrate Magnetic Field Lines Produced Oscillating Electric Dipole State Four Properties Magnetic Field Lines Lies Axial Line Distance Centre Magnet Lies Equatorial Line Bar Magnet Distance Centre Torque Acting Much Work Required Make 120 Angle Magnetic Field Ship Reach Place 15 South West Respect Starting Point Declination Starting Point 19 West Direction SMagnet Suspended 30 Magnetic Meridian Makes Angle 40 Horizontal Actual Value Angel Dip Bar Magnet Brought Close Magnetized Iron Nails Nails Streaking Rotate Well Translate Vertical Component Earth Magnetic Field Times Horizontal Component Place Angle Dip Place Magnitude HUse Following Information Answer Next Question Magnetic Compass Placed North Poles Two Bar Magnets EUse Following Information Answer Next Question Two Horse Shoe Magnets Kept Close One Another Shown GUse Following Information Answer Next Question Bar Magnet Dropped Inside Vertically Held Solenoid CuUse Following Information Answer Next Question Given Figure Shows Two Bar Magnets Strength Placed AlUse Following Information Answer Next Question Iron Filings Sprinkled Sheet Glass Placed Short Bar MUse Following Information Answer Next Question Maurice Uses Magnetic Compass Trace Magnetic Field LiAngle Dip Place 60o Horizontal Component Magnetic Field 0 3 Oersted Earth Total Magnetic Field Bar Magnet Dipole Moment Length L Cut Two Equal Parts L 2 One Pieces Cut Two Equal Pieces Cross SectTwo Identical Magnets Mass 9 G Length 10 Cm Arranged One Made Float Restraining Magnets Rotate Find Magnet Freely Suspended Place Angle Dip 30o Total Intensity 0 3 Gauss Makes 20 Oscillations Per MinuUse Following Information Answer Next Question Relative Permeability Linear Magnetic Material R SuscUse Following Information Answer Next Question Bar Magnet Suspended Freely Support Place Earth MakesBar Magnet Suspended Horizontally Way Length Perpendicular Earth Magnetic Field Experiences Torque MReference Specifying Magnetic Field Following Physical Quantities Element Earth Magnetic Field Use Following Information Answer Question Net Magnetic Flux Closed Surface Always Zero Property MagnUse Following Information Answer Question Closed Surface Held Uniform Magnetic Field Shown Figure SuRectangular Sheet Dimensions L B Placed Along Uniform Magnetic Field Magnetic Flux Linked RectangulaCubical Box Side Placed Uniform Magnetic Fieldsuch One Side Perpendicular Direction Magnetic Field NUse Following Information Answer Question Core Electromagnet Made Materials High Ii Low Iii FollowinFollowing Materials Suitable Making Electromagnet Following Materials Used Making Permanent Magnet Following Efficient Method Making Permanent Magnets Following Materials Relative Permeability Greater One Materials High Value Retentivity Coercivity Suitable MakingHappens Diamagnetic Material Placed Non Uniform Magnetic Field Use Following Information Answer Next Question Magnetic Field Lines Get Modified Two Specimen X PlacFollowing Magnetic Materials Negative Value Magnetic Susceptibility Happens Temperature Magnetic Material Raised Curie Temperature Use Following Information Answer Question Making Permanent Magnet Choose Material Retentivity Ii CoeUse Following Information Answer Question Magnetic Field Lines Get Modified Two Specimen X Placed UnFollowing Magnetic Materials Negative Value Magnetic Susceptibility Use Following Information Answer Question Magnetic Material Used Make Permanent Magnet Following InfUse Following Information Answer Next Question Boat Sailing Towards North West Direction 45 Degree DVertical Component Earth Magnetic Field Place Tesla Angle Dip Place Value Horizontal Component EarthAngle Geographic Meridian Magnetic Meridian KnownBoat Sailing 60 Towardswest North Declination Place 15 East Actual Direction Boat Use Following Information Answer Next Question Small Angle Magnetic Axis Geographic Axis Place DefinPermanent Magnets Give One Example Following Substances Diamagnetic Bi Al Na Cu Ca NiFollowing Substances Para Magnetic Bi Al Cu Ca Pb NiLight Metal Disc Top Electromagnet Thrown Current Switched Give Reason Magnetic Needle Free Rotate Vertical Plane Orients Vertically Certain Place Earth Values Horizontal Short Bar Magnet Magnetic Moment 0 9 J Placed Axis 30 Uniform Magnetic Field Experiences Torque 0 06Angle Dip Place Horizontal Vertical Components Earth Magnetic Field Equal Magnetised Needle Magnetic Moment 4 8 10 2 Jt 1 Placed 30 Direction Uniform Magnetic Field MagnitudeHorizontal Component Earth Magnetic Field Place B Angle Dip 60 Value Vertical Component Earth MagnetSusceptibility Magnetic Material 2 6 10 5 Identify Type Magnetic Material State Two Properties Horizontal Component Earth Magnetic Field Place B Angle Dip 60 Value Vertical Component Earth MagnetHorizontal Component Earth Magnetic Field Place B Angle Dip 60 Value Vertical Component Earth MagnetRelative Magnetic Permeability Magnetic Material 800 Identify Nature Magnetic Material State Two ProTwo Magnetic Materials Relative Permeability Slightly Greater Unity B Less Unity Identify Nature MatTwo Magnetic Materials Relative Permeability Slightly Greater Unity B Less Unity Identify Nature MatTwo Magnetic Materials Relative Permeability Slightly Greater Unity B Less Unity Identify Nature MatShow Diagrammatically Behaviour Magnetic Field Lines Presence Paramagnetic Ii Diamagnetic SubstancesShow Diagrammatically Behaviour Magnetic Field Lines Presence Paramagnetic Ii Diamagnetic SubstancesShow Diagrammatically Behaviour Magnetic Field Lines Presence Paramagnetic Ii Diamagnetic SubstancesGive Two Points Distinguish Paramagnetic Diamagnetic Substance Electron Atom Revolves Round Nucleus Orbit Radius R Frequency V Write Expression Magnetic Moment EleGive Two Points Distinguish Paramagnetic Diamagnetic Substance Way Behaviour Diamagnetic Material Different Paramagnetic Kept External Magnetic Field Depict Behaviour Magnetic Field Lines Presence Diamagnetic Material Place Horizontal Component Earth Magnetic Field B Angle Dip 60 Value Horizontal Component Earth MagnWrite Two Properties Material Suitable Making Permanent Magnet B Electromagnet 2 Proton Electron Travelling Along Parallel Paths Enter Region Uniform Magnetic Field Acting PerpendicBar Magnet Magnetic Moment 6 J Aligned 60 Uniform External Magnetic Field 0 44 Calculate Work Done T State Gauss Law Magnetism Explain Significance B Write Four Important Properties Magnetic Field Lin Show Time Period Oscillations Freely Suspended Magnetic Dipole Magnetic Moment Uniform Magnetic FieAngle Dip 90 Earth Three Types Materials Given Paramagnetic Substance Ii Diamagnetic Subtance Iii Ferromagnetic SubstanNorth Pole Magnet Directed Towards Pole Earth Assertion Poles Magnet Cannot Separated Breaking Two Pieces Reason Magnetic Moment Reduced Half MagnAngle Dip Certain Place Earth 60o Magnitude Earth Horizontal Component Magnetic Field 0 30 Gauss VerFollowing Represents Correct Relationship Magnetic Susceptibility Paramagnetic Diamagnetic FerromagnMaterial Suitable Making ElectromagnetsFollowing Question Statement Assertion Followed Statement Reason Choose Correct Answer Following ChoCalculate Magnetic Moment Magnet Vibrating Frequency 3 18 Hz Moment Inertia Magnet Axis Rotation 1 2Maximum Minimum Value Torque Experienced Magnetic Dipole Bar Magnet Magnetic Moment 10 Placed Unifor feedback on
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