Gagandeep
02 Nov 2016
Draw, wherever possible, a rough sketch of
(i) a triangle with both line and rotational symmetries of order more than 1.
(ii) a triangle with only line symmetry and no rotational symmetry of order more than 1.
(iii) a quadrilateral with a rotational symmetry of order more than 1 but not a line symmetry.
(iv) a quadrilateral with line symmetry but not a rotational symmetry of order more than 1.
2 sec
1 sec
4 sec
0.5 sec
or
similar questions
Take Data Giving Minimum Maximum Temperature Various Cities Given Following Table Temperatures CitieUse Euclid Division Lemma Show Cube Positive Integer Form 9m 9m 1 9m 8 Name Two Figures Line Symmetry Rotational Symmetry Express Following Linear Equations Form Ax C 0 Indicate Values B C Case Ii Iii 2x 3 6 Iv X 3y V 2x 5Tell Whether Following Certain Happen Impossible Happen Certain Older Today Yesterday Ii Tossed CoinDraw Wherever Possible Rough Sketch Triangle Line Rotational Symmetries Order 1 Ii Triangle Line Sym6 Marbles Box Numbers 1 6 Marked Probability Drawing Marble Number 2 Ii Probability Drawing Marble NOne Following Options True 3x 5 Unique Solution Ii Two Solutions Iii Infinitely Many SolutionsFigure Two Lines Symmetry Rotational Symmetry Order 1 Coin Flipped Decide Team Starts Game Probability Team Start Fill Blanks Shape Centre Rotation Order Rotation Angle Rotation Square Rectangle Rhombus EquilateralBox Contains Pairs Socks Two Colours Black White Picked White Sock Pick One Eyes Closed Probability Name Quadrilaterals Line Rotational Symmetry Order 1 Express Number Product Prime Factors Write Four Solutions Following Equations 2x 7 Ii X 9 Iii X 4yMeasure Right Angle Ii Straight Angle Rotating 60 Centre Figure Looks Exactly Original Position Angles Happen Figure One Following Figures Direction Acceleration Depicted Correctly Simple Pendulum Damped Oscillation Rotational Symmetry Order 1 Whose Angle Rotation 45 Ii 17 Find Lcm Hcf Following Pairs Integers Verify Lcm Hcf Product Two Numbers Hollow Charged Conductor Tiny Hole Cut Surface Show Electric Field Hole Unit Vector Outward Normal DObtain Formula Electric Field Due Long Thin Wire Uniform Linear Charge Density Without Using Gauss LBelieved Protons Neutrons Constitute Nuclei Ordinary Matter Built Elementary Units Called Quarks Pro Consider Arbitrary Electrostatic Field Configuration Small Test Charge Placed Null Point E E 0 ConfParticle Mass Charge Q Enters Region Two Charged Plates Initially Moving Along X Axis Speed Vx Like World Famous Cricketer Rahul Specially Designed Practice Ground Ground Specially Designed Wall Pq AnSleeping Pills Recommended Doctors Patients Suffering Sleeplessness Advisable Take Doses Without ConReference Classification Statement Ranitidine Antacid Given Require Artificial Sweetening Agents Write Chemical Equation Preparing Sodium Soap Glyceryl Oleate Glyceryl Palmitate Structural FormulaeFollowing Type Nom Ionic Detergents Present Liquid Detergents Emulsifying Agents Wetting Agents LabeNeed Classify Drugs Different Ways Explain Term Target Molecules Drug Targets Used Medicinal Chemistry Name Macromolecules Chosen Drug Targets Medicines Taken Without Consulting Doctors Define Term Chemotherapy Forces Involved Holding Drugs Active Site Enzymes Antacids Antiallergic Drugs Interfere Function Histamines Interfere Function Low Level Noradrenaline Cause Depression Types Drugs Needed Cure Problem Name Two Drugs Meant Term Broad Spectrum Antibiotics Explain Antiseptics Differ Disinfectants Give One Example Total Energy Developed System Initial Displacement Given 0 2 Rad Main Constituents Dettol Tincture Iodine Use Food Preservatives Use Aspartame Limited Cold Foods Drinks Artificial Sweetening Agents Give Two Examples Name Sweetening Agent Used Preparation Sweets Diabetic Patient Electrical Technician Requires Capacitance 2 F Circuit Across Potential Difference 1 Kv Large Number Fe H2o 6 3 Strongly Paramagnetic Whereas Fe Cn 6 3 Weakly Paramagnetic Explain Think Tiruvananthapuram Equable Climate Chennai Rains Fury Monsoon Parts Country Jodhpur Hot Desert Match Following Animals Category Existence Animals Plants Category Existence Black Buck Extinct AsiaMultiple Choice Questions Two Following Extreme Locations Connected East West Corridor Mumbai NagpurUsing Examples Area Compare Contrast Activities Functions Private Public Sectors Workers Unorganised Sector Need Protection Following Issues Wages Safety Health Explain Examples Situations High Risks Credit Might Create Problems Borrower Explain 26 1931 Price Line Electron Mass Natural Angular Frequency 0 Transition Nth Mth Energy States External Laser Provides FWrite Difference Return Inwards Return Outwards Difference Trade Discount Cash Discount Maximum Energy Particle Executing H Amplitude E Potential Energy Displacement Spring Time Period 10 Seconds Cut 5 Equal Parts Would Time Period Part Time Period Bell Attached Branch Tree Happen Time Period Bird Sits Bell Distance Moved Particle Simple Harmonic Motion One Time Period Amplitude Motion Potential Energy Oscillating Particle Given V X Kx2 Time Period Given Proportionality Constant ReducAparna Manisha Sonia Partners Sharing Profits Ratio 3 2 1 Manisha Retires Goodwill Firm Valued Rs 1 Books Ram Bharat Showed Capital Employed 31 12 2016 Rs 5 00 000 Profits Last 5 Years 2015 Rs 40 000 Mass Suspended Spring Negligible Mass Spring Pulled Little Released Mass Executes Shm Frequency F MaDefine Partnership Deed Considered Desirable Make Partnership Agreement Writing Meant Debenture Particle Projected Tunnel Dug Across Earth Passing Center Earth SpeedSpring Spring Constant K N Connected Mass 3 Kg Mounted Horizontally Stretched Positive X Direction 1Time Period Pendulum Length 1 Seconds Moving Car Acceleration Car G 10 S2 Amplitude Oscillation Increased 25 Increase Energy Equation Motion Particle Given Bywhere X Cm Amplitude Motion Simple Pendulum Time Period 2 Seconds Earth Surface Time Period Height 2r Surface Earth R Radius EarLength Pendulum Executing Shm Decreased 36 Decrease Time Period Motion PendulumFollowing Equations Represent Simple Harmonic MotionLength Pendulum Executing Shm Increased 69 Find Increase Time Period Motion Pendulum Time Period Pendulum Stationary Lift Seconds Lift Moves Upwards Acceleration Calculate New Time PeriBody Lying Platform Oscillating Simple Harmonic Motion Frequency Oscillation Changes Time Relation BUse Following Information Answer Next Question Four Statements Sound Produced Organ Pipe Two Open EnUse Following Information Answer Next Question Source Sound Producing Sound Wave Frequency 293 Hz LyUse Following Information Answer Next Question Two Simple Harmonic Waves Represented Following EquatUse Following Information Answer Next Question Block Given Figure Vibrating Spring Periodic Motion ETemperature Gaseous Medium Raised 1 C Speed Sound Medium IncreaseUse Following Information Answer Next Question Organ Pipe Closed One End Fundamental Frequency ResonUse Following Information Answer Next Question Two Simple Pendulums Lengths 1 16 Respectively Given 4 Kg Mass Ice Attached Spring 0 C Smooth Surface Mass Displaced Executes Simple Harmonic Motion InteStraight Tunnel Dug Across Earth Passing Centre Another Tunnel B Dug Along Chord Earth Choose CorrecUse Following Information Answer Next Question Two Waves Amplitude Frequency Meet Form Standing WaveUse Following Information Answer Next Question Time Period Spring Spring Constant K Equal Mass Load Use Following Information Answer Next Question Object Mass Dropped Tunnel Passes Centre Earth FollowParticle Executes Simple Harmonic Motion Position Given Choose Correct Plot Circle Corresponding PosBob Simple Pendulum Executes Shm Amplitude 0 4 Passing Mean Position Kinetic Energy 0 016 J Obtain ESpring Spring Constant K Stretched X Mm Potential Energy Found U Potential Energy Changes CompressedSimple Pendulum Length L Mass Bob Frequency Oscillation F Hz Earth Frequency Oscillation Placed SurfCruz Performing Experiment Laboratory Simple Pendulum Length 1 Observes Oscillation Records Time PerForce Constant Spring 20 N Initial Stretch 0 20 Change Potential Energy Expanded 0 25 Two Elevators B Moving Opposite Directions Acceleration Time Periods Identical Pendulums Elevators BFollowing Motions Describe Periodic Motion Whenever Object Undergoes Simple Harmonic Motion Always Constant Ratio DisplacementUse Following Information Answer Next Question Every Periodic Motion Simple Harmonic Periodic MotionUse Following Information Answer Next Question Body Executing Simple Harmonic Motion Described EquatUse Following Information Answer Next Question Load Weight 152 N Suspended Spring Balance Displaced Use Following Information Answer Next Question Block Mass 2 Kg Attached Spring Block Pulled DistanceUse Following Information Answer Next Question Simple Harmonic Motion Particle Q Exhibiting CircularUse Following Information Answer Next Question Simple Pendulum Taken Surface Moon Oscillates Time PeUse Following Information Answer Next Question Simple Pendulum Used Record Time Mountains Value AcceUse Following Information Answer Next Question Given Figure Shows Periodic Motion Particle GraphicalUse Following Information Answer Next Question Object Unknown Mass Attached Spring Displaced EquilibUse Following Information Answer Next Question Displacement Particle Executing Simple Harmonic MotioUse Following Information Answer Next Question Object Mass 2 Kg Attached Spring Executing Simple HarUse Following Information Answer Next Question Linear Simple Harmonic Oscillator Consisting Block MaUse Following Information Answer Next Question Wagon Mass 2 0 Kg Connected Two Springs Spring ConstaUse Following Information Answer Next Question Displacement Body Executing Simple Harmonic Motion GiUse Following Information Answer Next Question Load Mass Suspended Two Springs Spring Constants K1 KUse Following Information Answer Next Question Sphere Filled Water Hung Long Thread Made Oscillate FUse Following Information Answer Next Question System Executing Simple Harmonic Motion Amplitude CerTime Period Simple Pendulum Placed Elevator Increases MovesAcceleration Angular Frequency Displacement X Basic Condition Motion Particle ShmUse Following Information Answer Next Question Particle Mass 1 G Experiences Potential Energy Given Discuss Brief Whether Function Periodic Mosquito Flaps Wing 60000 Times Minute Calculate Frequency Period Flapping Damping Force Constant System Executing Shm Particle Starts Shm Position Equal Amplitude Vibration Initial Phase Wave Type Motion Simple Pendulum Show Damped Oscillations Plot Displacement Time Curve Case Resonance Oscillation Resonant Oscillations Damping Force Constant System Executing Shm Particle Executes Simple Harmonic Motion According Equation X 5cos2 4 Acceleration Produced 5 SecondLength String Simple Pendulum Decreased 5 Ratio Initial Time Period Final Time Period Body Mass 0 5 Kg Moving Simple Harmonic Motion Amplitude 0 8 Kinetic Energy Body Mean Position 0 25 Frequency Oscillation Particle Mass 15 Gm Oscillating Field Potential U X 25x2 50 Erg Gm 1 Body Fixed Vertical Spring Stretches Distance 25 Cm Exerting Force 10 N Mass Body Attached Spring OsFollowing Graphs Represent Periodic Motion Body Executing Simple Harmonic Motion Time Period Possess Energy E Amplitude Body Halved Following SBlock Mass Kept Frictionless Platform Connected Three Massless Springs Force Constant K K 2k FrequenObject Mass 5 Kg Moving Velocity 15 Ms 1 Stopped Compressing String Placed Path Force Constant SprinLowest Position Speed Bob 1 2 Long Pendulum 5 Ms 1 Speed Pendulum Bob Makes Angle 45 Vertical Take GHole Drilled Across Diameter Earth Object Dropped Inside Object Start Execute Shm Time Period R RadiParticle Mass Executing Simple Harmonic Motion Amplitude Distance Mean Position Kinetic Potential EnBob Simple Pendulum Given Positive Charge Set Oscillate Right Negatively Charged Surface Original TiPoint Particle Mass 2 75 10 12 Kg Executing Simple Harmonic Motion Time Period 5 4 10 3 Maximum VeloParticle Undergoing Forced Vibrations Resonance Wave Exhibited Sharp PeakTime Period Particle Executing Simple Harmonic Motion Shortest Distance Travelled 5 Seconds Equal 12Body Mass Suspended Help Spring Oscillates Time Period Spring Cut Three Equal Section Body SuspendedBody Mass 2 Kg Executing Simple Harmonic Motion Represented Equation X 15cos50t 6 Cm Maximum KineticCompeting 500 Oscillations Amplitude Oscillating Body Reduces Half Initial Value Amplitude 1000 OsciParticle Mass Executing Simple Harmonic Motion Time Period Projection Motion AlongBody Mass 6 Kg Placed Spring Produces Compression 50 Cm Restoring Force Developed Spring 25 N Time PMetallic Cube Mass Cross Sectional Area Floating Liquid Density Given Small Vertical Displacement MeGiven Figure Shows Six Identical Springs Connected Mass Three Different Configurations Ratio Time PeOne Following Statements Incorrect Body Executing Simple Harmonic Motion Object Executing Shm Time Period 10 Seconds Kinetic Energy Body Mean Position 25 J Amplitude OscillaFollowing Figures Direction Net Acceleration Correctly Depicted Simple Pendulum Damped Oscillation DFollowing Equations Pairs Equations Represents Simple Harmonic Motion X Acos Bsin Ii X Btan Iii X AeSmall Opening Metallic Sphere Radius R Completely Filled Liquid Density Sphere Attached String Made Given Equations Represent Shm Executed Two Particles 1 2 Respectively X1 3cos 25t X2 10sin 25t PhaseBlock Mass 5 Kg Attached Massless Spring Force Constant 750 Nm 1 Shown Fig Given Displacement 10 Cm Seconds Pendulum Taken Earth Moved Planet G 5 65 Ms 2 Would Change Length Time Period Remains G EartPoint Particle Mass 1 75 10 3 G Moving Potential Field Given U X 25 X 100 Erg G 1 Frequency OscillatParticle Executes Simple Harmonic Motion Displacement Time X Asin Bcos 3 B 5 10 1 Magnitude Maximum Mass Connected Spring Spring Constant 40 N 1 Mass Body Changes Time Given Relation Dm 2 Dtthe AngulaSecond Pendulum Held Rod Middle Long Elevator Choose Correct Option Solid Ball Attached Spring Thread Spring Relaxed Position Ball Rotate Side Wall Shown Thread Cut SprUniform Solid Sphere Radius 4 Cm Mass 250 G Fixed Center Metal Wire Whose End Fixed Roof Hanging SphTwo Metallic Wires B Attached Hanging Ceiling Mass Lower End Cross Sectional Area Ratio Lengths 5 1 Block Spring System Shown Figure Coefficient Friction Block B 0 2 Coefficient Friction B C 0 5 SurfaBody Mass 4 Kg Executing Simple Harmonic Motion Restoring Force Time Period Maximum Force Exerted SpN Number Equal Masses Attached Spring Stiffness 80 N 1 Time Period Oscillation X Number Masses RemovRubber Ball Mass 20 G Attached String Length 40 Cm Suspended Tree Branch Inclined Angle 7 5o Ball DiGiven Figure Shows Rectangle Abcd Bf De Perpendiculars Drawn Vertices B Respectively Diagonal Ac ProParticle Executes Simple Harmonic Motion Position Given Choose Correct Plot Circle Corresponding PosBob Simple Pendulum Executes Shm Amplitude 0 4 Passing Mean Position Kinetic Energy 0 016 J Obtain ESpring Spring Constant K Stretched X Mm Potential Energy Found U Potential Energy Changes CompressedUniform Magnetic Field Exists Plane Paper Pointing Left Right Shown Figure 13 3 Field Electron ProtoWhenever Object Undergoes Simple Harmonic Motion Always Constant Ratio DisplacementUse Following Information Answer Next Question Every Periodic Motion Simple Harmonic Periodic MotionUse Following Information Answer Question Body Executing Simple Harmonic Motion Described Following Use Following Information Answer Next Question Load Weight 152 N Suspended Spring Balance Displaced Use Following Information Answer Next Question Block Mass 2 Kg Attached Spring Block Pulled DistanceUse Following Information Answer Next Question Simple Harmonic Motion Particle Q Exhibiting CircularUse Following Information Answer Next Question Simple Pendulum Taken Surface Moon Oscillates Time PeUse Following Information Answer Next Question Simple Pendulum Used Record Time Mountains Value AcceUse Following Information Answer Next Question Given Figure Shows Periodic Motion Particle GraphicalUse Following Information Answer Next Question Object Unknown Mass Attached Spring Displaced EquilibUse Following Information Answer Next Question Displacement Particle Executing Simple Harmonic MotioUse Following Information Answer Next Question Object Mass 2 Kg Attached Spring Executing Simple HarUse Following Information Answer Next Question Linear Simple Harmonic Oscillator Consisting Block MaUse Following Information Answer Question Wagon Mass 2 0 Kg Connected Two Springs Spring Constant 10Use Following Information Answer Next Question Displacement Body Executing Simple Harmonic Motion GiUse Following Information Answer Next Question Load Mass Suspended Two Springs Spring Constants K1 KUse Following Information Answer Next Question Sphere Filled Water Hung Long Thread Made Oscillate FUse Following Information Answer Next Question System Executing Simple Harmonic Motion Amplitude CerTime Period Simple Pendulum Placed Elevator Increases MovesGive Example Periodic Motion Oscillatory State Condition Required Oscillatory Motion Simple Harmonic Motion Body Oscillates Shm According Equation Amplitude Initial Phase Motion Time Period Shm Period Time Values Kinetic Energy Potential Energy Repeat Two Springs Subjected Force One Spring Oscillates Frequency 5 1 Frequency 10 1 Inferred Value SpringCondition Periodic Motion Simple Pendulum Qualify Simple Harmonic Motion Resonance Amplitude Object Executing Forced Oscillations Given F0 Damping Force D2 Infinity However Real Life Exemplify Periodic Motion Oscillatory Oscillatory Motion Plotting Two Displacement Time Graphs Following Relationships Force F Particle Particles Position X Implies Simple Harmonic Oscillation F Graphically Represent Kinetic Energy Potential Energy Associated Simple Harmonic Motion Function TimGraphically Represent Kinetic Energy Potential Energy Associated Simple Harmonic Motion Function DisArrange Damping Coefficients B1 B2 B3 Given Waves Decreasing Order Magnitude Equation Helps DeterminAngular Displacement Simple Pendulum Small 50 Classified Simple Harmonic Frequency Hz Simple Harmonic Oscillation Time Speed Particle Maximum Downward 5 S2Upward 10 S2Downward 10 S2Mass One Objects Doubled Spring Cut Half Original Length Spring Stretched Increase Amplitude Oscillation Draw Displacement Vs Time Graphs Oscillations Object Air Water Damped Oscillator 250 G K 85 N B 70 G Long Take Mechanical Energy Oscillator Drop One Half Initial VRadius Circle Particle Moving Constant Angular Speed 4cm Perpendicular Dropped Postion Particle X AxCalculate Mechanical Energy Linear Oscillator Whose Speed Becomes Zero Time Displacement 13cm K 26 NKinetic Energy BlockExplain Phase Simple Harmonic Motion Block Mass 700 G Fastened Spring Whose Spring Constant K 56 N Block Kept Frictionless Table Pulled DMass 420 G Attached Spring Spring Constant K 70 N System Made Undergo Damped Oscillations Damping CoState Condition Resonance Use Following Information Answer Next Question Two Balls Mass 1 Kg 0 5 Kg Respectively Connected MasSpring Stretched X Mm Potential Energy U Spring Compressed Factor N Respect Previous Expansion PotenUse Following Information Answer Next Question Force Constant Spring 20 N Initial Stretch 0 20 ChangTwo Unequal Masses Joined Together Compressed Spring Spring Suddenly Cut Two Masses Fly Apart NumeriUse Following Information Answer Next Question Man Bungee Jumping Bridge Length Cord Uses 50 Spring Use Following Information Answer Next Question Block Mass Lying Horizontal Frictionless Surface AttaUse Following Information Answer Next Two Questions Dennis Trying Different Ways Hanging Tyre WeightFollowing Statements Regarding Effective Spring Constant True Use Following Information Answer Next Question Jim Writing Velocity Displacement Body Undergoing SimUse Following Information Answer Next Question Ball Mass Hanging Spring Balance Executing Simple HarUse Following Information Answer Next Question Ball Fastened Periphery Vertical Wheel Rotating 60 RpUse Following Information Answer Next Question Time Dependent Equation Simple Harmonic Motion Given Use Following Information Answer Next Question Two Simple Harmonic Waves Represented Following EquatUse Following Information Answer Next Question Two Simple Pendulums Lengths 1 16 Respectively Given Use Following Information Answer Next Question Jack Conducts Experiment Know Variables Affect FrequeUse Following Information Answer Next Question Tom Wants Know Effect Gravity Time Period Simple PendUse Following Information Answer Next Question Chetan Performing Experiment Laboratory Simple PendulUse Following Information Answer Next Question Time Period Spring Spring Constant K Equal Mass Load Use Following Information Answer Next Question Period Oscillation Spring Inversely Proportional SquaUse Following Information Answer Next Question William Conducting Experiment Using Spring Length L SObject Moving Constant Period U Seconds Means ObjectSimple Pendulum Swinging Time Period Seconds Vertical Plane Frequency PendulumUse Following Information Answer Next Question Given Figure Shows Simple Pendulum Length L OscillatiUse Following Information Answer Next Question Given Figure Shows Two Simple Pendulums Ii OscillatinUse Following Information Answer Next Question Four Simple Pendulums Ii Iii Iv Oscillating Plane ShoUse Following Information Answer Next Question Given Figure Shows Spring Suspended Ceiling K Spring Use Following Information Answer Next Question Given Figure Shows Spring Suspended Ceiling K Spring Simple Pendulum Length L Mass Bob Frequency Oscillation Pendulum F Hz Earth Frequency Oscillation PeUse Following Information Answer Next Question Block Given Figure Vibrating Spring Periodic Motion EUse Following Information Answer Next Question Block Given Figure Vibrating Spring Periodic Motion EUse Following Information Answer Next Question Object Mass Dropped Tunnel Passes Centre Earth FollowUse Following Information Answer Next Question Jack Wants Calculate Acceleration Due Gravity G SchooUse Following Information Answer Next Question Two Points B 20 Cm Apart Particle Linear Simple HarmoUse Following Information Answer Next Question Maximum Mass Read Spring Balance Scale 100 Kg Length Time Period Function Use Following Information Answer Next Question Spring Constant Spring Is1500 N 1 Mounted Horizontal Use Following Information Answer Next Question Piston Cylinder Head Vehicle Moves Simple Harmonic MoUse Following Information Answer Next Question Time Period Simple Pendulum Surface Earth 2 8 SecondsUse Following Information Answer Next Question Spring Spring Constant 900 Nm 1 Ends Free Attached MaUse Following Information Answer Next Question Given Figure Shows Simple Harmonic Motion Particle FoUse Following Information Answer Next Question Particle Executing Simple Harmonic Motion DisplacemenFollowing Equations Represent Simple Harmonic Motion Use Following Information Answer Next Question Simple Harmonic Motion Represented X Cm Seconds FrequUse Following Information Answer Next Question Particle Executing Simple Harmonic Motion Travels MinUse Following Information Answer Next Question Body Oscillates Shm According Equation X 2 0 Speed BoFollowing Relationships Represent Simple Harmonic Motion Acceleration X Displacement Use Following Information Answer Next Question Body Mass 0 5 Kg Moving Simple Harmonic Motion MaximuUse Following Information Answer Next Question Body Mass 40 Kg Oscillating Spring Force Constant 640Use Following Information Answer Next Question Object Mass 4 Kg Attached Spring Oscillates Every 3seUse Following Information Answer Next Question Spring Time Period 2 Seconds Spring Cut 16 Equal PartUse Following Information Answer Next Question Graph Given Figure Represents Periodic Motion Period Use Following Information Answer Next Question Light Simple Pendulum Executing Simple Harmonic MotioParticle Executes Simple Harmonic Motion Position Given Choose Correct Plot Circle Corresponding PosSpring Spring Constant K Stretched X Mm Potential Energy Found U Potential Energy Changes CompressedBob Simple Pendulum Executes Shm Amplitude 0 4 Passing Mean Position Kinetic Energy 0 016 J Obtain ESimple Pendulum Length L Mass Bob Frequency Oscillation F Hz Earth Frequency Oscillation Placed SurfShm Defined Match Quantity Given Column Accurate Variation Time Given Column Ii Column Column Ii PotThree Springs Different Spring Constants K1 K2 K3 Attached Four Different Ways Match Arrangements GiMatch Conditions Simple Pendulum Given Column Corresponding Time Periods Given Column Ii Column ColuFollowing Statements Correct Case Simple Pendulum Length L Time Period Following Graph Correct Time Period Oscillating Simple Pendulum 3 Surface Earth Length Pendulum 2 Based Given Information FoConsider Three Shms Equal Amplitude Direction One Differs Phase Next 45o SuperimposeFollowing Statements Correct Spring Constant Find Time Period Amplitude Bob Find Speed Bob String Makes 0 04 Rad Vertical Angular Acceleration Bob Momentarily RestFrequency Oscillations Ball Speed Ball B Two Balls Opposite Ends Diameter Ab Total Energy SystemSphere Diameter Floating Half Volume Submerged Liquid Density Pushing Slightly Releasing Starts PerfBlock Kept Table Undergoes Simple Harmonic Oscillations Horizontal Plane Frequency 4 Hz Maximum AmplFollowing Given Spring Mass System Spring Constants Increased Eight Times Frequency Oscillation BecoConcave Mirror 6 2 Curvature Radius Small Spherical Metallic Ball Placed Released Small Distance CenTime Period Oscillating Spring Attached Mass 5 Mass Increased 3 Kg Time Period Increased 1 3 Find VaPulley Mass Moment Inertia Axis Hanged String Spring System Shown Figure Spring Spring Constant K StUse Following Information Answer Question Suppose Body Forced Oscillate Periodic External Force SeveBody Oscillates Natural Frequency Help External Periodic Force Whose Frequency Equal Natural FrequenUse Following Information Answer Question Body Oscillates Help External Periodic Force Frequency DifFollowing Expressions Correct Small Damping Symbols Used Usual Meanings Use Following Information Answer Next Question Body Oscillates Help External Periodic Force FrequencFollowing Statements Correct Regarding Damped Simple Harmonic Oscillation Damping Constant B Damped Harmonic Oscillation Spring Block System DependVertical Cylinder Filled Mixture Two Ideal Gases B Supports Freely Moving Piston 0 5 Kg Cross SectioParticle Executing Periodic Motion Whose Displacement Given 8cos23t2sin 400t Choose Correct Option Following Responsible Energy Loss Damped Harmonic Motion Sinusoidal Force Given Amplitude Applied Oscillator Maintain Oscillation Largest Amplitude FrequencySimple Harmonic Motion Restoring Force ProportionalRelation Frequency F Angular Frequency Simple Harmonic Motion GivenTime Period Simple Harmonic Motion Time Period Potential EnergyTime Period Simple Pendulum Independent Pendulum Simple Harmonic Motion Resultant Force Displacement Body Mean Position Read Following Answer Four Questions V Oscillation Repetitive Variation Typically Time Measure CentrTwo Charges 5 10 8 C 3 10 8 C Located 16 Cm Apart Point Line Joining Two Charges Electric Potential Regular Hexagon Side 10 Cm Charge 5 C Vertices Calculate Potential Centre Hexagon Two Charges 2 C 2 C Placed Points B 6 Cm Apart Identify Equipotential Surface System B Direction EleSpherical Conductor Radius 12 Cm Charge 1 6 10 7c Distributed Uniformly Surface Electric Field InsidParallel Plate Capacitor Air Plates Capacitance 8 Pf 1pf 10 12 F Capacitance Distance Plates ReducedThree Capacitors Capacitance 9 Pf Connected Series Total Capacitance Combination B Potential DiffereThree Capacitors Capacitances 2 Pf 3 Pf 4 Pf Connected Parallel Total Capacitance Combination B DeteParallel Plate Capacitor Air Plates Plate Area 6 10 3 M2 Distance Plates 3 Mm Calculate Capacitance Explain Would Happen Capacitor Given Exercise 2 8 3 Mm Thick Mica Sheet Dielectric Constant 6 Insert12 Pf Capacitor Connected 50v Battery Much Electrostatic Energy Stored Capacitor 600 Pf Capacitor Charged 200 V Supply Disconnected Supply Connected Another Uncharged 600 Pf CapacitCharge 8 Mc Located Origin Calculate Work Done Taking Small Charge 2 10 9 C Point P 0 0 3 Cm Point QCube Side B Charge Q Vertices Determine Potential Electric Field Due Charge Array Centre Cube Two Tiny Spheres Carrying Charges 1 5 C 2 5 C Located 30 Cm Apart Find Potential Electric Field Mid Spherical Conducting Shell Inner Radius R1 Outer Radius R2 Charge Q Charge Q Placed Centre Shell Sur Show Normal Component Electrostatic Field Discontinuity One Side Charged Surface Another Given UnitLong Charged Cylinder Linear Charged Density Surrounded Hollow Co Axial Conducting Cylinder ElectricHydrogen Atom Electron Proton Bound Distance 0 53 Estimate Potential Energy System Ev Taking Zero PoOne Two Electrons H2 Molecule Removed Get Hydrogen Molecular Ion Ground State Two Protons Separated Two Charged Conducting Spheres Radii B Connected Wire Ratio Electric Fields Surfaces Two Spheres UseTwo Charges Q Q Located Points 0 0 0 0 Respectively Electrostatic Potential Points B Obtain DependenFigure 2 34 Shows Charge Array Known Electric Quadrupole Point Axis Quadrupole Obtain Dependence PotArea Plates 2 F Parallel Plate Capacitor Given Separation Plates 0 5 Cm Realize Answer Ordinary CapaObtain Equivalent Capacitance Network Fig 2 35 300 V Supply Determine Charge Voltage Across CapacitoPlates Parallel Plate Capacitor Area 90 Cm2 Separated 2 5 Mm Capacitor Charged Connecting 400 V Supp4 F Capacitor Charged 200 V Supply Disconnected Supply Connected Another Uncharged 2 F Capacitor MucShow Force Plate Parallel Plate Capacitor Magnitude Equal Qe Q Charge Capacitor E Magnitude ElectricSpherical Capacitor Consists Two Concentric Spherical Conductors Held Position Suitable Insulating SSpherical Capacitor Inner Sphere Radius 12 Cm Outer Sphere Radius 13 Cm Outer Sphere Earthed Inner SAnswer Carefully Two Large Conducting Spheres Carrying Charges Q1 Q2 Brought Close Magnitude ElectroCylindrical Capacitor Two Co Axial Cylinders Length 15 Cm Radii 1 5 Cm 1 4 Cm Outer Cylinder EarthedParallel Plate Capacitor Designed Voltage Rating 1 Kv Using Material Dielectric Constant 3 DielectriDescribe Schematically Equipotential Surfaces Corresponding Constant Electric Field Z Direction B FiVan De Graaff Type Generator Spherical Metal Shell 15 106 V Electrode Dielectric Strength Gas SurrouSmall Sphere Radius R1 Charge Q1 Enclosed Spherical Shell Radius R2 Charge Q2 Show Q1 Positive ChargAnswer Following Top Atmosphere 400 Kv Respect Surface Earth Corresponding Electric Field Decreases feedback on
you will get a link to add your travel on this - you will have to use that for successful submission of your answer. we require this to keep the website free of spam, bots and unhelpful content
please give a small description about what you want to write on so that our editorial team can help you
ask question on Genius Jnr
you will get a confirmation link on this - you will have to click that for successful submission of your question. we require this to keep the website free of spam, bots and unhelpful content
please be clear, to the point and respectful
congratulations, you've clicked the correct answer
sorry, please try a few more questions