Question

An aluminum wire consists of the three segments shown in (Figure 1). The current in the top segment is \( I=15 \mathrm{~A} \). Figure 1 of 1 For each of these three segments, find the drift velocity \( v_{d} \). Express your answers in meters per second separated by commas. View Available Hint(s) (1) A2? \( x_{b} \) \( \frac{a}{b} \) \( \sqrt{x} \) \( \sqrt[n]{x} \) \( \vec{x} \) \( \hat{x} \) \( |x| \) \( x \cdot 10^{n} \) \( \left(v_{\mathrm{d}}\right)_{\text {top }},\left(v_{\mathrm{d}}\right)_{\text {mid }},\left(v_{\mathrm{d}}\right)_{\text {bot }} \) \( \square \) m/s Submit Previous Answers Incorrect; Try Again; 6 attempts remaining Part E For each of these three segments, find the electron current \( i \). Express your answers in inverse seconds separated by commas. View Available Hint(s) Show Transcribed Text Part E For each of these three segments, find the electron current \( i \). Express your answers in inverse seconds separated by commas. View Available Hint(s) \[ \begin{aligned} & \square \sqrt[1]{\square} A \Sigma \phi+\lambda \sigma \rightarrow \text { ? } \\ i_{\text {top }}, i_{\text {mid }}, i_{\text {bot }}= & \mathrm{s}^{-1} \end{aligned} \]

          An aluminum wire consists of the three segments shown in (Figure 1). The current in the top segment is \( I=15 \mathrm{~A} \).

Figure
1 of 1

For each of these three segments, find the drift velocity \( v_{d} \).
Express your answers in meters per second separated by commas.
View Available Hint(s)
(1) A2?
\( x_{b} \)
\( \frac{a}{b} \)
\( \sqrt{x} \)
\( \sqrt[n]{x} \)
\( \vec{x} \)
\( \hat{x} \)
\( |x| \)
\( x \cdot 10^{n} \)
\( \left(v_{\mathrm{d}}\right)_{\text {top }},\left(v_{\mathrm{d}}\right)_{\text {mid }},\left(v_{\mathrm{d}}\right)_{\text {bot }} \) \( \square \)
m/s
Submit
Previous Answers

Incorrect; Try Again; 6 attempts remaining

Part E

For each of these three segments, find the electron current \( i \).
Express your answers in inverse seconds separated by commas.
View Available Hint(s)

Show Transcribed Text

Part E

For each of these three segments, find the electron current \( i \).
Express your answers in inverse seconds separated by commas.
View Available Hint(s)
\[
\begin{aligned}
& \square \sqrt[1]{\square} A \Sigma \phi+\lambda \sigma \rightarrow \text { ? } \\
i_{\text {top }}, i_{\text {mid }}, i_{\text {bot }}= & \mathrm{s}^{-1}
\end{aligned}
\]

An aluminum wire consists of the three segments shown in (Figure 1). The current in the top segment is I=15 A.

Figure
1 of 1

For each of these three segments, find the drift velocity vd.
Express your answers in meters per second separated by commas.
View Available Hint(s)
(1) A2?
xb
(a)/(b)
√(x)
√(x)
x⃗
x̂
|x|
x · 10^n
(vd)top ,(vd)mid ,(vd)bot □
m/s
Submit
Previous Answers

Incorrect; Try Again; 6 attempts remaining

Part E

For each of these three segments, find the electron current i.
Express your answers in inverse seconds separated by commas.
View Available Hint(s)

Show Transcribed Text

Part E

For each of these three segments, find the electron current i.
Express your answers in inverse seconds separated by commas.
View Available Hint(s)

□√(□) A Σϕ+λσ→ ?

itop , imid , ibot = s^-1

Added by Stephen C.

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