gce-ial advanced physics topic-wise question-answer

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B0063CDFE4CC812DA3CAC2D155D3A693C6393CDA
Number of Files:
238
Content Size:
139.67MB
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2015-06-12
Keywords:
gceialadvancedphysicstopicwisequestionanswer
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File Name
Size
Physics.pdf
7.9MB
Particle Accelerators.pdf
1.34MB
Solid Materials.pdf
923.69KB
Waves; Circular motion & Oscillation.pdf
848.55KB
Spring extension; candle energy marks scheme.pdf
800.27KB
Waves; Circular motion & Oscillation marks scheme.pdf
793.65KB
Plan to investigate how light intensity varies with distance marks scheme.pdf
785.14KB
Plan how to investigate polaroid sheets at various angles marks scheme.pdf
782.87KB
Astrophysics.pdf
782.15KB
Solid Materials marks scheme.pdf
774.71KB
Medical Physics.pdf
763.76KB
Golf ball density;diode characteristics marks scheme.pdf
752.86KB
Nuclear & particle Physics.pdf
735.73KB
Radioactivity & Nuclear atom.pdf
733.57KB
Mechanics;Forces & Moments.pdf
722.34KB
Electric Current & Potential Difference.pdf
717.67KB
Radioactivity & Nuclear atom marks scheme.pdf
709.59KB
Thermal Physics; Heating matter.pdf
708.9KB
Astrophysics marks scheme.pdf
703.31KB
Quantum Phenomena.pdf
701.95KB
Magnetic Fields marks scheme.pdf
697.04KB
Electric Current & Potential Difference marks scheme.pdf
690.33KB
Quantum Phenomena marks scheme.pdf
688.2KB
Waves; Superposition of waves.pdf
684.61KB
Capacitance marks scheme.pdf
681.45KB
Waves; General marks scheme.pdf
680.45KB
Electric Fields marks scheme.pdf
677.86KB
Nuclear & particle Physics marks scheme.pdf
675.82KB
Electric Circuits.pdf
673.92KB
Mechanics;Forces & Moments marks scheme.pdf
673.25KB
Thermal Physics; Kinetic model of matter.pdf
669.7KB
Synthesis; Analogies.pdf
653.68KB
Medical Physics marks scheme.pdf
653.3KB
Gravitational fields marks scheme.pdf
647.45KB
Synthesis; Analogies marks scheme.pdf
635.62KB
EM induction.pdf
630.32KB
Electric Circuits marks scheme.pdf
623.76KB
Electric Fields.pdf
623.17KB
Gravitational fields.pdf
619.93KB
Thermal Physics; Kinetic model of matter marks scheme.pdf
619.28KB
Waves; General.pdf
612.88KB
Mechanics;Mechanical Energy.pdf
611.11KB
Waves; Superposition of waves marks scheme.pdf
610.31KB
Expanding Universe marks scheme.pdf
610.22KB
Particle Accelerators marks scheme.pdf
609.91KB
Magnetic Fields.pdf
606.57KB
Cooling water curve; calculation;effects of insulation marks scheme.pdf
606.03KB
Mechanics;Rectilinear Motion.pdf
605.06KB
Matchbox friction & mas with moments;Plan for friction marks scheme.pdf
604.52KB
Plan to investigate coil property;impedance data graph marks scheme.pdf
604.21KB
Capacitance.pdf
603.07KB
Plan investigation for capacitor impedance;data & graph marks scheme.pdf
602.42KB
Table tennis ball diameter;moment of inertia; slope marks scheme.pdf
600.75KB
Heating water electrically; temp time graph; SHC.pdf
599.23KB
Rotational oscillations of a mass on a spring marks scheme.pdf
593.51KB
Mechanics;Mechanical Energy marks scheme.pdf
590.23KB
Thermal Physics; Conservation of energy marks scheme.pdf
589.5KB
Density of glass in a specimen tube marks scheme.pdf
586.54KB
Mechanics;Dynamics.pdf
586.54KB
Cooling water curve; calculation;effects of insulation.pdf
581.79KB
Simple pendulum with interrupted swing marks scheme.pdf
581.01KB
Heating water electrically; temp time graph; SHC marks scheme.pdf
577.77KB
Temp measurements on mixing hot & cold water.pdf
577.13KB
Investigation of uniform E field in a solution marks scheme.pdf
575.46KB
Expts with different LEDs;marble diameter & mass marks scheme.pdf
573.37KB
CRO to measure inductance marks scheme.pdf
572.73KB
EMF;pd measurement & calculations on a wire.pdf
572.31KB
Rate of liquid cooling; lamp power marks scheme.pdf
571.96KB
Vertical oscillations of mass at end of meter rule marks scheme.pdf
571.63KB
Capacitor charging; water waves in a tray.pdf
571.43KB
Compass in a coil;deflection & current marks scheme.pdf
571.39KB
Wire density;trolley acceleration;decay simulation marks scheme.pdf
570.87KB
Adding salt to water; uncertainties; thermistor circuit marks scheme.pdf
570.77KB
Expts with different LEDs;marble diameter & mass.pdf
570.42KB
Thermal Physics; Conservation of energy.pdf
569.39KB
Density of cardboard;EMF & internal resistance marks scheme.pdf
569.36KB
Plan to investigate coil property;impedance data graph.pdf
569.17KB
Plasticene density; LED circuit measurements.pdf
569.04KB
compass deflection in a magnetic field marks scheme.pdf
568.78KB
Investigation of radial E field in a solution marks scheme.pdf
568.25KB
Magnetic field; capacitor charging marks scheme.pdf
568.07KB
Plan investigation for capacitor impedance;data & graph.pdf
568.02KB
Bi-filar oscillations of meter rule;moment of inertia marks scheme.pdf
567.7KB
Wire density;trolley acceleration;decay simulation.pdf
567.6KB
Heating water; specific heat capacity marks scheme.pdf
566.46KB
Plan & investigate flux density & distance from a wire.pdf
565.55KB
Glass sphere density; force measurement.pdf
564.82KB
Investigation of sand falling through a funnel marks scheme.pdf
563.19KB
potential divider measurement; washer density marks scheme.pdf
561.64KB
Calc of resistance to motion of toy car on slope marks scheme.pdf
559.52KB
EM induction marks scheme.pdf
559.21KB
Trolley velocity measurement; plan further expts.pdf
556.9KB
Ruler oscillations on a can or cell.pdf
555.11KB
Expanding Universe.pdf
548.16KB
Investigate masses & volume of 1p & 2p coins.pdf
544.77KB
Magnetic field; capacitor charging.pdf
544.46KB
Density of glass in a specimen tube.pdf
544.34KB
Mechanics;Rectilinear Motion marks scheme.pdf
541.87KB
Mechanics;Dynamics marks scheme.pdf
537.82KB
Spring stretching;period of oscillation; uncertainties marks scheme.pdf
536.74KB
Three forces in equilibrium at a point marks scheme.pdf
536.02KB
Vertical oscillations of a steel spring; rigidity marks scheme.pdf
535.95KB
Investigate variation of power dissipation with lenght of wire marks scheme.pdf
535.84KB
Depression of a rule;period oscillation;uncertainties marks scheme.pdf
535.64KB
double glazing a beaker marks scheme.pdf
535.62KB
Young Modulus for a meter rule marks scheme.pdf
534.6KB
Plan & investigate flux density & distance from a wire marks scheme.pdf
534.27KB
Water temperature fall with addition of ice marks scheme.pdf
533.72KB
Study of acc of masses suspended from a pulley system marks scheme.pdf
533.6KB
properties of a circuit containing a resistor & a capacitor marks scheme.pdf
533.51KB
AC circuit to find frequency marks scheme.pdf
533.04KB
Investigation of motion of projectile marks scheme.pdf
532.68KB
Stretch nylon cord to find eneryg stored marks scheme.pdf
532.47KB
Investigation of circuit element containing diode & resistance marks scheme.pdf
531.27KB
Retort stand weight using moments; puzzle box.pdf
530.7KB
Measurement on a set square to find its density marks scheme.pdf
530.21KB
Meter rule weight using moments; puzzle box.pdf
530.2KB
Investigation of unknown circuit in box marks scheme.pdf
529.75KB
Watercooling; thermisotr, rate of cooling.pdf
529.53KB
oscillations of a wire in a B-field; charging sharing.pdf
529.3KB
Spring shear modulus marks scheme.pdf
528.78KB
Charging capacitor at constant current marks scheme.pdf
528.77KB
compass deflection in a magnetic field.pdf
528.75KB
Acceleration of Sphere on inclined plane marks scheme.pdf
528.71KB
Circuit containing voltmeter & resistor marks scheme.pdf
528.56KB
Water temperature fall with addition of ice.pdf
528.52KB
plan & investigate flux density & distance from a magnetic field marks scheme.pdf
527.7KB
plan & calculation on impedence of a C-R circuit marks scheme.pdf
527.33KB
Spring extension; candle energy.pdf
527.11KB
Examination of unknown circuit with 3 terminals marks scheme.pdf
527.08KB
Simple pendulum with interrupted swing.pdf
526.97KB
Compass in a coil;deflection & current.pdf
526.47KB
Force & angle measurement.pdf
526.24KB
Oscillating cantilever period; Young Modulus.pdf
525.94KB
Vibrations of a wire in a magnetic field.pdf
525.72KB
plan how resonant frequency & volume are linked.pdf
525.41KB
Measuring coin diameter; V & I curve for lamp.pdf
525.34KB
Depression of a rule;period oscillation;uncertainties.pdf
525.06KB
plan how resonant frequency & volume are linked marks scheme.pdf
524.96KB
Vibrations of a wire in a magnetic field2.pdf
524.51KB
Measurement on a set square to find its density.pdf
524.37KB
Investigate masses & volume of 1p & 2p coins marks scheme.pdf
524.37KB
Trolley velocity measurement; plan further expts marks scheme.pdf
524.34KB
Bi-filar oscillations of meter rule;moment of inertia.pdf
524.12KB
Vertical Slinky Oscillations.pdf
524.11KB
AC circuit to find frequency.pdf
524.02KB
Three forces in equilibrium at a point.pdf
524.02KB
Voltage & current for a lamp;potential divider diagram marks scheme.pdf
523.83KB
Rotational oscillations of a mass on a spring.pdf
523.79KB
Energy of ball on runway;plan to investigate further marks scheme.pdf
523.45KB
Capacitor discharge; spectrum observation.pdf
523.34KB
Matchbox friction & mas with moments;Plan for friction.pdf
523.23KB
Trolley acceleration; resistor & diode measurement.pdf
522.89KB
Investigation of uniform E field in a solution.pdf
522.83KB
Investigation of unknown circuit in box.pdf
522.78KB
Investigation of circuit element containing diode & resistance.pdf
522.71KB
potential divider measurement; washer density.pdf
522.57KB
Study of acc of masses suspended from a pulley system.pdf
522.52KB
Paperclip chain oscillation; capacitor discharge marks scheme.pdf
522.5KB
Golf ball density;diode characteristics.pdf
522.36KB
plan to find speed of sound using CRO.pdf
522.3KB
Density of cardboard;EMF & internal resistance.pdf
522.21KB
Temp measurements on mixing hot & cold water marks scheme.pdf
522.21KB
Spring stretching;period of oscillation; uncertainties.pdf
522.17KB
Acc measurement & Newton's second law; friction marks scheme.pdf
522.17KB
Glass sphere density; force measurement marks scheme.pdf
522.15KB
Investigate variation of power dissipation with lenght of wire.pdf
522.08KB
Foil thickness; volume & resistance.pdf
522.02KB
Depression of a meter rule marks scheme.pdf
521.88KB
properties of a circuit containing a resistor & a capacitor.pdf
521.75KB
Charging capacitor at constant current.pdf
521.59KB
Density of metal foil and block marks scheme.pdf
521.35KB
plan to find speed of sound using CRO marks scheme.pdf
521.16KB
Examination of unknown circuit with 3 terminals.pdf
521.01KB
Measuring coin diameter; V & I curve for lamp marks scheme.pdf
521KB
Capacitor in ac circuit.pdf
520.82KB
Capacitor charing; diffraction grating.pdf
520.68KB
plan & calculation on impedence of a C-R circuit.pdf
520.44KB
Foil thickness; volume & resistance marks scheme.pdf
520.41KB
EMF;pd measurement & calculations on a wire marks scheme.pdf
520.11KB
Timing a ball on a slope; use of a data logger marks scheme.pdf
520KB
Paperclip chain oscillation; capacitor discharge.pdf
519.59KB
CRO to measure inductance.pdf
519.56KB
Investigation of radial E field in a solution.pdf
519.47KB
Vertical oscillations of mass at end of meter rule.pdf
519.46KB
plan & investigate flux density & distance from a magnetic field.pdf
519.42KB
Meter rule weight using moments; puzzle box marks scheme.pdf
519.31KB
Rate of liquid cooling; lamp power.pdf
519.23KB
Circuit containing voltmeter & resistor.pdf
519.19KB
Burette & Capacitor discharge; period of oscillations marks scheme.pdf
519.15KB
Burette & Capacitor discharge; period of oscillations marks scheme_2.pdf
519.15KB
spring geometry; resistivity; energy marks scheme.pdf
519.14KB
Plan how to investigate polaroid sheets at various angles.pdf
519.05KB
Energy of ball on runway;plan to investigate further.pdf
518.98KB
Resistance measurement of componenet including diode marks scheme.pdf
518.96KB
Capacitor charging; water waves in a tray marks scheme.pdf
518.95KB
Resistance measurement of componenet including diode.pdf
518.73KB
Retort stand weight using moments; puzzle box marks scheme.pdf
518.72KB
Ruler oscillations on a can or cell marks scheme.pdf
518.27KB
impact of polystyrene sphere on sand.pdf
518.24KB
Plan to investigate how light intensity varies with distance.pdf
518.22KB
Plan V & I curve for lamp; using data.pdf
518.04KB
YYoung Modulus of a meter rule.pdf
517.94KB
Table tennis ball diameter;moment of inertia; slope.pdf
517.53KB
Calc of resistance to motion of toy car on slope.pdf
517.51KB
Investigation of motion of projectile.pdf
517.46KB
Vibrations of a wire in a magnetic field2 marks scheme.pdf
517.42KB
Timing a ball on a slope; use of a data logger.pdf
517.42KB
Vertical Slinky Oscillations marks scheme.pdf
517.37KB
Vertical oscillations of a steel spring; rigidity.pdf
517.29KB
Capacitor discharge; spectrum observation marks scheme.pdf
516.91KB
Plan V & I curve for lamp; using data marks scheme.pdf
516.84KB
Force & angle measurement marks scheme.pdf
516.76KB
Ruler oscillations on a can marks scheme.pdf
516.73KB
spring geometry; resistivity; energy.pdf
516.36KB
Adding salt to water; uncertainties; thermistor circuit.pdf
516.29KB
Trolley acceleration; resistor & diode measurement marks scheme.pdf
516.14KB
Ruler oscillations on a can.pdf
516.09KB
Voltage & current for a lamp;potential divider diagram.pdf
516KB
Vibrations of a wire in a magnetic field marks scheme.pdf
515.86KB
Burette & Capacitor discharge; period of oscillations.pdf
515.67KB
Spring shear modulus.pdf
515.57KB
Acc measurement & Newton's second law; friction.pdf
515.52KB
Thermal Physics; Heating matter marks scheme.pdf
515.32KB
impact of polystyrene sphere on sand marks scheme.pdf
515.16KB
Heating water; specific heat capacity.pdf
514.85KB
Acceleration of Sphere on inclined plane.pdf
514.27KB
double glazing a beaker.pdf
513.32KB
Stretch nylon cord to find eneryg stored.pdf
513.15KB
Density of metal foil and block.pdf
512.95KB
Young Modulus for a meter rule.pdf
511.82KB
Capacitor charing; diffraction grating marks scheme.pdf
511.61KB
Oscillating cantilever period; Young Modulus marks scheme.pdf
511.6KB
Depression of a meter rule.pdf
510.95KB
Investigation of sand falling through a funnel.pdf
510.48KB
Watercooling; thermisotr, rate of cooling marks scheme.pdf
505.87KB
YYoung Modulus of a meter rule marks scheme.pdf
505.87KB
Capacitor in ac circuit marks scheme.pdf
505.87KB

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