A practical application of electrostatics is in electrostatic separation of solids. For ex phosphate, consisting of small particles of quartz and phosphate rock, can be sep components by applying a uniform electric field as in Figure below. Assuming zero and displacement, determine the separation between the particles after falling 73 cm kV/m and Q/m 15 uC/kg for both positively and negatively charged particles.

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Q2) A practical application of clectrostatics is in electrostatic separation of solids, For example, Florida
phosphate, consisting of small particles of quartz and phosphate rock, can be separated into its
components by applying a uniform electric field as in Figure below. Assuming zero initial velocity
and displacement, determine the separation between the particles after falling 73 cm. Take E =630
kV/m and Q/m= 15 uC/kg for both positively and negatively charged particles.
O+
Phosphate
Quartz
Transcribed Image Text:Q2) A practical application of clectrostatics is in electrostatic separation of solids, For example, Florida phosphate, consisting of small particles of quartz and phosphate rock, can be separated into its components by applying a uniform electric field as in Figure below. Assuming zero initial velocity and displacement, determine the separation between the particles after falling 73 cm. Take E =630 kV/m and Q/m= 15 uC/kg for both positively and negatively charged particles. O+ Phosphate Quartz
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