A rod of semiconducting material of lenght L=3 m and cross-sectional area A=4.5 mm^2 lies along the x-axis between x=0 and x=L. The material obeys ohm's law, and resistivity varies along the rod according to p=p0 (1-(x^2/L^2)) where p0= 4.10^-4 ohm.m. The end of the rod x=0 is at a potential V0=30V greater than the x=L. A) what is the total resistance, in units of ohm, of the rod? B) what is the current, in units of miliamperes, in the rod? C) what is the electric potential, in units of Volt, in the rod at x=L/2? D) what is the electic-field magnitude E, in units of V/m, in the rod at x=L/2?
A rod of semiconducting material of lenght L=3 m and cross-sectional area A=4.5 mm^2 lies along the x-axis between x=0 and x=L. The material obeys ohm's law, and resistivity varies along the rod according to p=p0 (1-(x^2/L^2)) where p0= 4.10^-4 ohm.m. The end of the rod x=0 is at a potential V0=30V greater than the x=L. A) what is the total resistance, in units of ohm, of the rod? B) what is the current, in units of miliamperes, in the rod? C) what is the electric potential, in units of Volt, in the rod at x=L/2? D) what is the electic-field magnitude E, in units of V/m, in the rod at x=L/2?
College Physics
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Chapter3: Two-dimensional Kinematics
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A rod of semiconducting material of lenght L=3 m and cross-sectional area A=4.5 mm^2 lies along the x-axis between x=0 and x=L. The material obeys ohm's law, and resistivity varies along the rod according to p=p0 (1-(x^2/L^2)) where p0= 4.10^-4 ohm.m. The end of the rod x=0 is at a potential V0=30V greater than the x=L.
A) what is the total resistance, in units of ohm, of the rod?
B) what is the current, in units of miliamperes, in the rod?
C) what is the electric potential, in units of Volt, in the rod at x=L/2?
D) what is the electic-field magnitude E, in units of V/m, in the rod at x=L/2?
Transcribed Image Text:C) x = L/2'deki elektrik potansiyel kaç Volt'tur?
Answer:
D) x
L/2'de elektrik alanın büyüklüğü V/m biriminde nedir?
Answer:
Transcribed Image Text:(!) AŞAĞIDAKİ SORULARI BURADA VERİLEN BİLGİYE GÖRE YANITLAYINIZ.
Yarı iletken malzemeden yapılmış, boyu L = 3 m ve kesit alanı A = 4.5 mm2 olan bir çubuk x-ekseni üzerinde, x = 0 ve
x = L aralığında bulunmaktadır. Malzeme Ohm yasasına uymakta ve özgül direnci çubuk boyunca
1 –
L?
şeklinde
= Po
değişmektedir, burada po = 4 x 10 4 N. m'dir. Çubuğun x = O'daki ucu Vo
= 30 V ve æ = L'ye göre yüksek potansiyeldedir.
A) Çubuğun toplam direnci N biriminde nedir?
Answer:
B) Çubuktan akan akım kaç miliamperdir?
Answer:
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