Physics MCQ GK
Total Questions: 100
a) Newton
b) Joule
c) Pascal
d) Watt
a) An object in motion stays in motion
b) Force equals mass times acceleration
c) Energy cannot be created or destroyed
d) For every action, there is an equal reaction
a) 9.8 m/s²
b) 10 m/s²
c) 9.8 km/s²
d) 9.81 m/s²
a) Velocity
b) Force
c) Mass
d) Acceleration
a) Watt
b) Joule
c) Newton
d) Pascal
a) 3 x 10^8 m/s
b) 3 x 10^6 m/s
c) 3 x 10^7 m/s
d) 3 x 10^9 m/s
a) Energy can be created or destroyed
b) Energy cannot be created or destroyed
c) Energy is always constant
d) None of the above
a) KE = 1/2 mv²
b) KE = mv²
c) KE = mgh
d) KE = Fd
a) Force times distance
b) Force divided by distance
c) Mass times velocity
d) Energy consumed
a) Electron
b) Neutron
c) Proton
d) Photon
a) Volt
b) Ampere
c) Ohm
d) Watt
a) V = IR
b) P = IV
c) E = mc²
d) F = ma
a) Mechanical advantage
b) Conservation of energy
c) Momentum conservation
d) Acceleration due to gravity
a) Light
b) Sound
c) Water
d) All of the above
a) Plasticity
b) Elasticity
c) Brittleness
d) Ductility
a) Convex lens
b) Concave lens
c) Cylindrical lens
d) Bifocal lens
a) PE = mgh
b) PE = 1/2 mv²
c) PE = Fd
d) PE = mv
a) Solar energy
b) Wind energy
c) Natural gas
d) Hydropower
a) Watt
b) Joule
c) Newton
d) Pascal
a) Newton's First Law
b) Newton's Second Law
c) Newton's Third Law
d) Law of Conservation of Energy
a) Doppler Effect
b) Reflection
c) Refraction
d) Interference
a) Density = mass/volume
b) Density = volume/mass
c) Density = mass + volume
d) Density = mass - volume
a) Conductors allow the flow of electric charge, while insulators do not.
b) Insulators allow the flow of electric charge, while conductors do not.
c) Conductors have a high resistance, while insulators have low resistance.
d) There is no difference.
a) Reflection
b) Refraction
c) Diffraction
d) Interference
a) Nodes and antinodes
b) Frequency and wavelength
c) Amplitude and energy
d) Wave speed and velocity
a) Friction
b) Gravity
c) Magnetism
d) Tension
a) Kinetic energy
b) Potential energy
c) Thermal energy
d) Chemical energy
a) Hertz
b) Newton
c) Watt
d) Joule
a) Mass
b) Weight
c) Volume
d) Density
a) Boyle's Law
b) Charles's Law
c) Avogadro's Law
d) Ideal Gas Law
a) Condensation
b) Evaporation
c) Freezing
d) Melting
a) 343 m/s
b) 300 m/s
c) 1500 m/s
d) 700 m/s
a) Diffraction
b) Reflection
c) Refraction
d) Interference
a) Momentum cannot be created or destroyed
b) Momentum is always increasing
c) Momentum is always zero
d) Momentum is conserved in a closed system
a) Wind
b) Moon's gravitational pull
c) Sun's gravitational pull
d) Earth's rotation
a) Coulomb
b) Ampere
c) Volt
d) Ohm
a) Pressure = Force/Area
b) Pressure = Area/Force
c) Pressure = Mass/Volume
d) Pressure = Force x Area
a) It diverges light rays
b) It converges light rays
c) It has a flat surface
d) It is used to correct nearsightedness
a) Longitudinal wave
b) Transverse wave
c) Surface wave
d) Standing wave
a) Work = Force x Distance
b) Work = Mass x Acceleration
c) Work = Power x Time
d) Work = Energy x Time
a) It can travel through a vacuum
b) It requires a medium to travel
c) It travels at the speed of light
d) It is a transverse wave
a) Distance from the sun
b) Earth's axial tilt
c) Variation in solar activity
d) Changes in atmospheric pressure
a) Celsius
b) Kelvin
c) Fahrenheit
d) Rankine
a) Proton
b) Electron
c) Neutron
d) Photon
a) Parallax
b) Refraction
c) Reflection
d) Diffraction
a) Friction
b) Gravity
c) Tension
d) Magnetism
a) Boyle's Law
b) Charles's Law
c) Ideal Gas Law
d) Avogadro's Law
a) Friction
b) Gravity
c) Tension
d) Normal force
a) Pascal
b) Newton
c) Joule
d) Watt
a) Coal
b) Natural gas
c) Solar energy
d) Nuclear energy