Tarani
27 May 2020
Here is an incomplete net for making a cube. Complete it in at least two different ways. Remember that a cube has six faces. How many are there in the net here? (Give two separate diagrams. If you like, you may use a squared sheet for easy manipulation.)
40.44 cm
91.67 cm
35.43 cm
80.45 cm
or
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4 3 2 1 5 Composite Numbers Taxi Fare City Follows First Kilometre Fares Rs 8 Subsequent Distance Rs 5 Per Km Taking Distance CoMeasure Angles Given Using Protractor Write Measure Match Nets Appropriate Solids B Ii C Iii Iv Use Isometric Dot Paper Make Isometric Sketch One Given Shapes Ii Iii Iv Two Open Pipes Length L L X Sounded Together Fundamental Tones Speed Sound Air V Beat Frequency TakeOpen Organ Pipe Resonance Producing Sound Frequency V Third Harmonic One Ends Pipe Closed Frequency Find Values Letters Following Give Reasons Steps Involved Student Performing Experiment Resonance Column Diameter Column Tube 4 Cm Frequency Turning Fork 512 Progressive Wave Frequency 500hz Traveling Velocity 360 Distance Two Points Phase Difference 60Equation Simple Harmonic Progressive Wave 8 Sin 0 628x 12 56t X Centimetres Seconds Phase DifferenceDisturbance Wave Propagating Positive X Direction 0 2s Becomes Phase Velocity Wave Two Boys Playing 10 Cm Long String Plan Create Disturbances String Form Waves Propagating Able CreatTravelling Harmonic Wave 2 0 Cos 10t 0 0080x 0 35 X Cm Sec Phase Difference Oscillatory Motion Two PRamesh Trying Experiment Simple Harmonic Wave Travelling Velocity 45 Observes 2 Cm Finds Smoke PartiString Mass 2 50 Kg Tension 200 N Length Stretched String 20 0m Transverse Jerk Struck One End StrinSomak Experiment Hung 1 Kg Wt One End Steel Wire Relative Density 8 93 Gave Little Flick Wire CreateSteel Wire Length 12 0 Mass 2 10 Kg Tension Wire Speed Transverse Wave Wire Equals Speed Sound Dry APraveen Trying Hand Playing 0 5 Flute Instead Chooses Treat Like Organ Pipe Observes Fundamental FreLength Pipe Open Ends 48 Cm Fundamental Frequency 320 Hz Speed Sound 320m Sec One Ends Closed FundamEquilibrium Concentration Substances Equilibrium Initial Concentration Icl 0 78 2 Icl G I2 G Cl2 G KTuning Fork Frequency 340 Hz Allowed Vibrate 120 Cm High Tube Water Filled Slowly Tube Minimum HeighFreezing Cold Physics Laboratory 0 C Required Gaurav Produce Fundamental Frequency 512 Hz Organ PipeAnother Experiment Physics Laboratory Praveen Organ Pipe Closed One End Opening Observed 1st OvertonSynthetic Detergents Better Soap Explain Following Terms Suitable Examples Cationic Detergents Ii Anionic Detergents Iii Non Ionic DeBiodegradable Non Biodegradable Detergents Give One Example Soaps Work Hard Water Use Soaps Synthetic Detergents Check Hardness Water Explain Cleansing Action Soaps Water Contains Dissolved Calcium Hydrogen Carbonate Soaps Synthetic Detergents One Use Cleaning ClotLabel Hydrophilic Hydrophobic Parts Following Compounds Ii Iii Polymers Polymers Classified Basis Structure Write Names Monomers Following Polymers Classify Following Addition Condensation Polymers Terylene Bakelite Polyvinyl Chloride Polythene Explain Difference Buna N Buna Arrange Following Polymers Increasing Order Intermolecular Forces Nylon 6 6 Buna Polythene Ii Nylon Explain Terms Polymer Monomer Natural Synthetic Polymers Give Two Examples Type 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Minimum Frequency 400 Hz SpUse Following Information Answer Next Question Two Buses Travelling Highway Velocity 15 Travelling OUse Following Information Answer Next Question Fundamental Frequency 200 Hz Emitted Open Organ Pipe Use Following Information Answer Next Question Ratio Specific Heats Hydrogen 1 4 Molecular Mass 2 10Use Following Information Answer Next Question Tension 500 N Given String Mass 7 50 Kg Length StretcUse Following Information Answer Next Question Ball Dropped Man Well 15 Deep Ball Splashes Water WelUse Following Information Answer Next Question Transverse Harmonic Wave String Given X Cm Speed GiveUse Following Information Answer Next Question Equation Travelling Harmonic Wave Given X 4 0 Cos 2 2Use Following Information Answer Next Question Wire Vibrates Fundamental Mode Frequency 60 Hz StretcUse Following Information Answer Next Question Fundamental Frequency Longitudinal Vibrations Rod GivUse Following Information Answer Next Question Pipe Closed One End 10 Cm Long Frequency Source 860 HUse Following Information Answer Next Question Two Strings Guitar G1 G2 Playing Note Sa Slightly TunUse Following Information Answer Next Question Train Standing Outer Signal Railway Station Blows WhiRead Given Statements Answer Question Sound Light Waves Longitudinal Nature Ii Sound Light Waves TraFollowing Statements Incorrect Regarding Longitudinal Waves Following Waves Example Transverse Wave Following Waves Travel Vacuum Write Differences Mechanically Produced Longitudinal Transverse Waves Ii Mechanical Transverse WaveElectromagnetic Waves Wave Propagating Positive X Direction Amplitude Wave Disturbance Given X Cm Shape Wave Change Time VStp Speed Sound Air 332 Ratio Density Hydrogen Air 1 16 Stp Speed Sound HydrogenMatch Column Corresponding Result Given Column Ii Column Column Ii Speaker Produces 5 0 W Sound MicrMatch Given Waves Column Speeds Given Column Ii Column Column Ii Transverse Wave String P B LongitudMatch Statements Given Column Appropriate Match Column Ii Take Speed Sound Air 340 1 Column Column ITwo Bridges Placed Wire Sonometer Three Segments Wire Fundamental Frequencies Ratio 2 3 4 Length SonWire Stretched Two Fixed Supports Tension 1 500 N Resonates Frequency 540 Hz Next Highest ResonatingSteel Rod Clamped Middle Set Longitudinal Vibrations Stroking Rosined Cloth Rod Vibrates FundamentalTwo Friends Playing Sound Producing Gadget Friend Runs Holding Gadget Hands Towards Vertical Wall OpWaves PolarizedAmplitude WaveWavelength WaveFind Equation Wave Amplitude Particle X 6 33 CmFind Wave Speed Length String 14 Cm Many Loops Formed Vibration Margret Standing Two Parallel Hills Burst Balloon Hears First Echo 3 Second Echo 4 Find Time Hear ThAmish Dropped Stone Well Heard Sound Splash Mouth Well 1 12 Find Depth Round Integer Value Well MeteCar Approaching Wall Speed U 1 Car Driver Observes Frequency Reflected Sound Changes 540 Hz Initial Wire Mass 2 G Length 50 Cm Jerked Give Transverse Wave Onto Speed Wave 90 Extension Wire L Original Y1 Y2 Two Waves Passing Region Find Displacement Cm Particle X 14 Cm Time 10 Ms Y1 3 10 Cm Sin 1 57 Second Overtone Frequency Open Organ Pipe Length 8 Equal First Overtone Frequency Closed Organ Pipe Following Characteristics Standing Wave Incorrect Expression Incident Wave Rigid Boundary Given Expressions Correct Reflected Wave Many Nodes Antinodes Present Fundamental Mode Vibration Stretched String Fixed Ends Standing Waves Form Stretched String Length L Fixed Ends Frequency Second Mode Vibration Given FolloFollowing Characteristics Standing Wave Incorrect Expression Incident Wave Rigid Boundary Given Expressions Correct Reflected Wave Many Nodes Antinodes Present Second Mode Vibration Stretched String Fixed Ends Use Following Information Answer Next Question Standing Waves Form Stretched String Length L 2 FixedMechanically Produced Transverse Waves PropagateMechanical Wave TravelLongitudinal Waves PropagateFollowing Waves Cannot Travel Vacuum Shape String Instant Transverse Wave Traveling Along Left Right Shown Figure Choose Correct Option Ratio Speed Sound Box B Box NearlySpeed Sound Box C NearlyBus Approaching Vertical Wall Driver Bus Notices Frequency Bus Horn Changes 500 Hz 540 Hz Sound GetsWave Frequency 500 Hz Velocity 360 Distance Two Nearest Points 60 PhasePath Difference Two Waves Y1 A1sin 2 X Y2 A2 Cos 2 XStanding Wave Point Amplitude Zero Called Points Amplitude Maximum Called Wire Ab Fixed Ends Oscillating Third Harmonic Length Wire 3 Wavelength Constituent WaveSquare Speed Wave Taught String Directly Proportional String Speed Transverse Waves Stretched StringLight WavesFollowing Properties Valid Sound Waves feedback on
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