Drift velocity =(meτ)E
vd=(meτ)(lΔV)
ΔV= Potential difference applied across the wire As temperature increases, relaxation time decreases, hence Vd decreases.
As per formula, Vd∝l1
vd=neAI, as it is not mentioned that current is at steady state neither it is mentioned that n is constant for given conductor. So it can't be said that vd is inversely proportional to A.
I=neAvd=RV=ρlVA
vd=meEτ
τ decrease with temperature increase.
First and fourth statements are correct.
vd=ρlneV(E=lV)