### Effect of Temperature on Atomic Movement Through IronThis section explores how temperature influences the movement of different atoms—oxygen, beryllium, and vanadium—through an iron sample. We aim to identify which graph represents the movement of oxygen.#### Graph Analysis- **Axes:** - The vertical axis is labeled "ln D," indicating the natural logarithm of the diffusion coefficient (D). - The horizontal axis is labeled "1/T (1/R)," representing the inverse of temperature (T), where R is the gas constant.- **Graph Lines:** - Line A (blue) - Line B (red) - Line C (green)#### Atomic Information- **Table:** - **Oxygen:** Atomic radius = 66 pm - **Beryllium:** Atomic radius = 96 pm - **Vanadium:** Atomic radius = 135 pm - **Iron:** Atomic radius = 132 pm#### QuestionWhich graph represents oxygen moving through iron?**Options:**- I. C- II. A- III. BIn this section, we're correlating the diffusion properties with atomic sizes to determine which graph (A, B, or C) reflects the behavior of oxygen atoms in the iron medium.

These graphs show the effect of temperature on oxygen, beryllium and vanadium atoms moving through an iron sample. Which graph represents oxygen moving through iron? Atom Atomic radius (pm) Охуgen 66 In D Beryllium 96 C Vanadium 135 Iron 132 A O1. C O II. A III. B

These graphs show the effect of temperature on oxygen, beryllium and vanadium atoms moving through an iron sample. Which graph represents oxygen moving through iron? Atom Atomic radius (pm) Охуgen 66 In D Beryllium 96 C Vanadium 135 Iron 132 A O1. C O II. A III. B

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Question

### Effect of Temperature on Atomic Movement Through Iron

This section explores how temperature influences the movement of different atoms—oxygen, beryllium, and vanadium—through an iron sample. We aim to identify which graph represents the movement of oxygen.

#### Graph Analysis

- **Axes:**
- The vertical axis is labeled "ln D," indicating the natural logarithm of the diffusion coefficient (D).
- The horizontal axis is labeled "1/T (1/R)," representing the inverse of temperature (T), where R is the gas constant.

- **Graph Lines:**
- Line A (blue)
- Line B (red)
- Line C (green)

#### Atomic Information

- **Table:**
- **Oxygen:** Atomic radius = 66 pm
- **Beryllium:** Atomic radius = 96 pm
- **Vanadium:** Atomic radius = 135 pm
- **Iron:** Atomic radius = 132 pm

#### Question

Which graph represents oxygen moving through iron?

**Options:**
- I. C
- II. A
- III. B

In this section, we're correlating the diffusion properties with atomic sizes to determine which graph (A, B, or C) reflects the behavior of oxygen atoms in the iron medium.

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