Can you answer both Pictures-Problems that are related? In the previous question we found that the B and g fields induce a gravitational drift on the motion of the proton. We can stop this drift by applying an electric field to thesystem. The electric field will also induce a drift, but if it oriented correctly, the two drifts will cancel. Select the appropriate direction of the electric field in order tocounteract the gravitational drift.The figure below identifies the various directions.O OutUpInLeft→ RightDownA. UpB. DownC. LeftD. Right Continuing with the previous problem... Assuming the electric field is oriented correctly to cancel the gravitational drift, find an expression for the required magnitude ofthe electric field so the net drift of the proton is zero.Hint: Equate the magnitude of the two drifts and solve for the electric field.Maximum number of characters (including HTML tags added by text editor): 32,000Show Rich-Text Editor (and character count)

Continuing with the previous problem.. Assuming the electric field is oriented correctly to cancel the gravitational drift, find an expression for the required magnitude of the electric field so the net drift of the proton is zero. Hint: Equate the magnitude of the two drifts and solve for the electric field. Maximum number of characters (including HTML tags added by text editor): 32,000 Show Rich-Text Editor (and character count)

Continuing with the previous problem.. Assuming the electric field is oriented correctly to cancel the gravitational drift, find an expression for the required magnitude of the electric field so the net drift of the proton is zero. Hint: Equate the magnitude of the two drifts and solve for the electric field. Maximum number of characters (including HTML tags added by text editor): 32,000 Show Rich-Text Editor (and character count)