For an electromagnetic wave the velocity of the wave is 300Mm/s.
Wave speed = (frequency) x (wavelength) = 6 x 2 = 12 meters per second
Very close to 6 meters per second.
Just multiply the frequency by the wavelength. In this case, the product will be in meters per second.
Speed = (frequency) x (wavelength) = (2) x (2) = 4 meters per second.There's not enough information to calculate 'velocity'.
90° i.e. pi upon 2
The velocity would be determined by the kind of wave. Sound or electromagnetic. Not by its frequency or wavelength.
Velocity=frequency*wavelength 6*2=12ms-1
Speed = (wavelength) x (frequency) = (2 x 6) = 12 meters per second.That's the wave's speed. "Velocity" is something different, not just a wordto use when you mean "speed" but you want to sound more technical.
Just multiply the frequency by the wavelength. In this case, the product will be in meters per second.
Speed = (frequency) x (wavelength) = (2) x (2) = 4 meters per second.There's not enough information to calculate 'velocity'.
5 meters Check: 5+5+2+2 = 14 meters
90° i.e. pi upon 2
The velocity would be determined by the kind of wave. Sound or electromagnetic. Not by its frequency or wavelength.
4 meters/2 seconds = 2 meters/second.
Velocity=frequency*wavelength 6*2=12ms-1
1)velocity 2)wavelength 3)frequency
How is the energy of the wave affected if the amplitude of the wave increases form 2 meters to 4 meters
7.5
If you have an isotropic material, the phase velocity of the surface wave (Rayleigh wave)can be approximately calculated by the following equation: v ~ [(0.72-(v_t/v_l)^2)/(0.75-(v_t/v_l)^2)]) * v_t where v is the Rayleigh velocity v_t is the transverse wave velocity (v_t=sqrt(c_44/density)) v_l is the longitudinal wave velocity(v_l=sqrt(c_11/density) and c_11 and c_44 are the members of the elastic constant tensor. For anisotropic materials, each direction of propagation possesses its own velocity and things get more complicated.