Velocity measurement of drilled cuttings on a shaker

What is claimed is: 1. A method comprising: depositing, onto a shaker screen, a plurality of downhole materials and fluids coming to a surface of a borehole as a result of a downhole operation in the borehole, wherein the downhole materials comprise cuttings; separating, using the shaker screen, the downhole materials from the fluids; emitting, using a radar, an electromagnetic wave toward at least one of a discharge end of the shaker screen and a transit; detecting a reflection of the electromagnetic wave reflected off at least a portion of the downhole materials; determining, based on the reflection of the electromagnetic wave, a velocity of the downhole material advancing along at least one of the transit and the shaker screen toward the discharge end of the shaker screen; and based on correlating an angle of tilt of at least one of the shaker screen and the transit to the velocity, determining that the angle of tilt should be corrected, wherein determining that the angle of tilt should be corrected comprises, determining whether a change in the velocity of the downhole materials has exceeded a velocity threshold; and in response to the change in the velocity exceeding the velocity threshold, determining whether the change in the velocity is a result of a change in an angle of a tilt of at least one of the shaker screen and the transit exceeding an error threshold or an increase in an amount of downhole material returning from downhole; generating an alarm for a change in velocity; in response to the change in velocity being the result of the increase in the amount of downhole material returning from downhole, determining whether the increase in the amount of downhole material is a result of a change in drilling parameters or a change in formation being drilled and generating an alarm for increased velocity and determining a cause of increasing returns because of change in drilling parameters or a formation being drilled; and in response to the change in the velocity exceeding the velocity threshold being the result of the change in the angle of tilt of at least one of the shaker screen and the transit exceeding the error threshold and that the change in the angle of tilt was not intentional, generating an alarm that there is an error in the angle of tilt of the at least one of the shaker screen and the transit. 2. The method of claim 1 further comprising: determining an area of the at least the portion of the downhole materials; and determining a volume of the downhole materials based on the velocity of the downhole materials advancing along at least one of the shaker screen toward the discharge end of the shaker screen and the transit and the area of the at least the portion of the downhole materials. 3. The method of claim 2 , wherein determining the volume of the downhole materials comprises calculating a product of the velocity of the downhole materials and the area of the at least the portion of the downhole materials. 4. The method of claim 1 , wherein determining the velocity of the downhole materials comprises: determining a difference in frequency between the electromagnetic wave emitted by the radar and the reflection of the electromagnetic wave; and calculating the velocity of the downhole materials, based on the difference in frequency.