Making chimes out of emt

This is a very good (and very *practical*) question, because with **small‑diameter steel tubes** the limitation is **not “can it vibrate?”**, but **whether the ear will clearly perceive the fundamental at all**.

Below I’ll give you a **clear, experience‑backed answer**, then explain *why* that limit exists so you can design confidently.

***

## Short answer (design takeaway)

For **3/4" steel conduit (EMT)**, the **lowest practical note where the fundamental is clearly perceived** is:

> ✅ **C3 to D3**  
> (≈ **130–147 Hz**)

Below that (B2, A♯2, A2), the tube *will* vibrate at the fundamental, but **listeners will mostly hear higher overtones instead**, and the pitch becomes muddy or ambiguous.

If you want a set that sounds *musical rather than industrial*, **do not tune lower than C3** for 3/4" EMT.

***

## Why 3/4" conduit has a lower limit

### 1. Small diameter vs long wavelength

3/4" EMT has roughly:

* **OD ≈ 0.92" (23.4 mm)**
* **Thin wall (\~1.2 mm)**
* **Steel (high stiffness, high internal damping)**

For **low notes**, the bending wavelength becomes very long relative to tube diameter. The result:

* The tube *does* vibrate at the fundamental
* But it radiates sound **inefficiently** at that frequency
* Higher modes radiate much more efficiently → they dominate perception

This is why **large church bells and tubular bells get fatter as they get lower**.

***

### 2. Steel emphasizes upper partials

Compared to aluminum or bronze:

* Steel has **stronger higher bending modes**
* The **2nd and 3rd modes** often sit **much closer in loudness** to the fundamental
* At low fundamentals, the ear locks onto those instead

So at low notes, listeners often hear:

* An octave
* A twelfth
* Or a “clang pitch” that doesn’t match the fundamental

***

### 3. Psychoacoustics (this matters a lot)

Human pitch perception relies on:

* Clear harmonic structure
* Adequate energy in the lowest partial

Below \~120 Hz on small steel tubes:

* The fundamental is too weak
* The ear reconstructs pitch incorrectly or inconsistently

That’s why two people may disagree on “what note it is.”

***

## What this means musically (by octave)

### ✅ **C3–C4 (recommended working range)**

* Fundamental is clearly present
* Pitch is stable and identifiable
* Good sustain relative to size
* This is the **sweet spot** for 3/4" EMT

### ⚠️ **A♯2–B2 (borderline)**

* Fundamental exists but is weak
* Overtone dominance increases
* Sounds more “industrial” than “musical”
* Works for sound sculpture, less so for melodic sets

### ❌ **A2 and below**

* Fundamental rarely perceived as pitch
* Tone becomes clangorous or ambiguous
* Requires much larger diameter to work musically

***

## Approximate lengths (to anchor intuition)

These are **order‑of‑magnitude**, not cut instructions:

| Note              | Approx. Length (3/4" EMT) | Musical result            |
| ----------------- | ------------------------- | ------------------------- |
| **A2 (110 Hz)**   | \~70–75"                  | ❌ Fundamental mostly lost |
| **B2 (123 Hz)**   | \~64–68"                  | ⚠️ Marginal               |
| **C3 (130.8 Hz)** | \~60–63"                  | ✅ Clear                   |
| **D3 (146.8 Hz)** | \~55–58"                  | ✅ Very solid              |
| **G3 (196 Hz)**   | \~46–48"                  | ✅ Excellent               |

Once you’re above **C3**, the instrument starts behaving like a *real chime set* rather than a found‑object experiment.

***

## Practical recommendation for your build

If you want:

* **Clear pitch**
* **Predictable tuning**
* **Pleasant musical intervals**

Then design your set as:

> **C3 up to C4 or D4**

That gives you:

* Manageable tube lengths
* Strong fundamentals
* Minimal psychoacoustic weirdness
* A range that works beautifully for pentatonic or diatonic sets

***

## One important tip (that improves the low end)

If you want to *push slightly lower* without changing diameter:

* Use **very soft suspension** (cord or leather)
* Hang precisely at **22.4% nodes**
* Strike with a **massive but soft mallet**
* Avoid paint or galvanizing at strike points

These won’t perform miracles, but they *can* make **B2 usable** in some contexts.

***

## Bottom line

For **3/4" steel conduit**:

> ✅ **Lowest musically reliable note: C3 (octave 3)**  
> ⚠️ **B2 is borderline**  
> ❌ **A2 and lower are not practical if you want clear pitch**

If you want, I can:

* Design a **C‑based or pentatonic scale** that fits your space
* Calculate **precise cut lengths** for EMT specifically
* Help you choose **striker hardness** to emphasize the fundamental

Just tell me how many chimes you want in the set and whether this is **indoor, outdoor, or mechanically struck**.
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Perfect — C3 to C4 is exactly the right chromatic span for 3/4" steel EMT if you want the fundamental to be clearly heard.

Below is a workable, physics‑based cut list you can take straight into the shop, plus notes on how to tune accurately.

Assumptions (so you know what these numbers mean)

These lengths assume:

• 3/4" EMT steel conduit
  • Outside diameter ≈ 0.92"
  • Wall thickness ≈ 0.049"
• Free‑hanging chimes (not clamped)
• Fundamental bending mode (what defines pitch)
• Equal temperament (A4 = 440 Hz)
• Hung at ~22.4% of length from each end

Absolute pitch may shift a few cents depending on the exact conduit batch — always final‑tune by trimming.

Chromatic scale: C3 → C4 (recommended range)

Cut lengths (initial targets)

Note

Frequency (Hz)

Length (inches)

Length (cm)

C3

130.81

40.89"

103.87

C♯3 / D♭3

138.59

39.73"

100.91

D3

146.83

38.60"

98.04

D♯3 / E♭3

155.56

37.50"

95.25

E3

164.81

36.43"

92.54

F3

174.61

35.39"

89.90

F♯3 / G♭3

185.00

34.39"

87.34

G3

196.00

33.41"

84.86

G♯3 / A♭3

207.65

32.46"

82.44

A3

220.00

31.53"

80.09

A♯3 / B♭3

233.08

30.63"

77.81

B3

246.94

29.76"

75.60

C4

261.63

28.92"

73.45

How to cut these so they actually tune

Do not cut exactly to length on the first pass.

Recommended method

1. Cut each tube ½" longer than the target length.
2. Hang it properly (important).
3. Strike with a soft mallet.
4. Use a tuner app.
5. Trim ⅛" at a time, then 1⁄16" when close.

For 3/4" EMT in this range:

• Removing ⅛" raises pitch by roughly 5–8 cents
• Small changes matter — sneak up on pitch

Hanging points (critical for sustain and pitch clarity)

For each tube:

• Measure total length L
• Mark 0.224 × L from each end
• Suspend at those two points with:
  • Nylon cord
  • Paracord
  • Leather thong

❌ Do not clamp
❌ Do not hang from the ends
❌ Do not use wire or chain at the nodes

Striker choice (helps the fundamental)

To emphasize the fundamental instead of clangy overtones:

• Best:
  • Rubber mallet (medium–hard)
  • Wrapped drum mallet
  • Hardwood with leather wrap
• Avoid:
  • Bare steel
  • Very hard plastic

Strike about ¼ of the length from the end, not the center.

Bottom line

For 3/4" steel conduit, a chromatic C3–C4 set:

• ✅ Keeps the fundamental audible
• ✅ Produces stable, identifiable pitch
• ✅ Avoids muddy low‑note psychoacoustics
• ✅ Results in very manageable tube lengths (≈29"–41")

If you want, next we can:

• Optimize this into a pentatonic or diatonic set
• Lay out a rack or frame
• Design a solenoid or mechanical striker system
• Adjust the scale to fit a specific physical space

Just tell me how you plan to play them — hand‑struck, wind‑driven, or mechanically actuated.