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Seller's Description

Very well maintained, new engine warranty until 4/26, new halyards, new shrouds, new garmin 73sv, solar panel and charger, all new lights and mast wiring, headsail furling. New trailer tires , wiring and led lights. New botton paint with trinadad hd $300 gallon.

Specs

Designer
Philip Rhodes
Builders
Palmer Scott & Co. Inc.
Kargard Boat & Engine Co.
Association
Mystic Seaport Museum
# Built
?
Hull
Monohull Dinghy
Keel
Centerboard
Rudder
?
Construction
Molded Plywood

Dimensions

Length Overall
18 11 / 5.8 m
Waterline Length
17 5 / 5.3 m
Beam
7 2 / 2.2 m
Draft
0 11 / 0.3 m 4 5 / 1.4 m
Displacement
1,100 lb / 499 kg
Ballast
?

Rig and Sails

Type
Sloop
Reported Sail Area
176′² / 16.4 m²
Total Sail Area
?
Mainsail
Sail Area
?
P
?
E
?
Air Draft
?
Foresail
Sail Area
?
I
?
J
?
Forestay Length
?

Auxilary Power

Make
?
Model
?
HP
?
Fuel Type
?
Fuel Capacity
?
Engine Hours
?

Accomodations

Water Capacity
?
Holding Tank Capacity
?
Headroom
?
Cabins
1

Calculations

Hull Speed
8.5 kn
Classic: 5.6 kn

Hull Speed

The theoretical maximum speed that a displacement hull can move efficiently through the water is determined by it's waterline length and displacement. It may be unable to reach this speed if the boat is underpowered or heavily loaded, though it may exceed this speed given enough power. Read more.

Formula

Classic hull speed formula:

Hull Speed = 1.34 x √LWL

A more accurate formula devised by Dave Gerr in The Propeller Handbook replaces the Speed/Length ratio constant of 1.34 with a calculation based on the Displacement/Length ratio.

Max Speed/Length ratio = 8.26 ÷ Displacement/Length ratio.311
Hull Speed = Max Speed/Length ratio x √LWL

8.47 knots
Classic formula: 5.6 knots
Sail Area/Displacement
26.4
>20: high performance

Sail Area / Displacement Ratio

A measure of the power of the sails relative to the weight of the boat. The higher the number, the higher the performance, but the harder the boat will be to handle. This ratio is a "non-dimensional" value that facilitates comparisons between boats of different types and sizes. Read more.

Formula

SA/D = SA ÷ (D ÷ 64)2/3

  • SA: Sail area in square feet, derived by adding the mainsail area to 100% of the foretriangle area (the lateral area above the deck between the mast and the forestay).
  • D: Displacement in pounds.
26.42
<16: under powered
16-20: good performance
>20: high performance
Ballast/Displacement
?

Ballast / Displacement Ratio

A measure of the stability of a boat's hull that suggests how well a monohull will stand up to its sails. The ballast displacement ratio indicates how much of the weight of a boat is placed for maximum stability against capsizing and is an indicator of stiffness and resistance to capsize.

Formula

Ballast / Displacement * 100

?
<40: less stiff, less powerful
>40: stiffer, more powerful
Displacement/Length
91.8
<100: Ultralight

Displacement / Length Ratio

A measure of the weight of the boat relative to it's length at the waterline. The higher a boat’s D/L ratio, the more easily it will carry a load and the more comfortable its motion will be. The lower a boat's ratio is, the less power it takes to drive the boat to its nominal hull speed or beyond. Read more.

Formula

D/L = (D ÷ 2240) ÷ (0.01 x LWL)³

  • D: Displacement of the boat in pounds.
  • LWL: Waterline length in feet
91.84
<100: ultralight
100-200: light
200-300: moderate
300-400: heavy
>400: very heavy
Comfort Ratio
6.8
<20: lightweight racing boat

Comfort Ratio

This ratio assess how quickly and abruptly a boat’s hull reacts to waves in a significant seaway, these being the elements of a boat’s motion most likely to cause seasickness. Read more.

Formula

Comfort ratio = D ÷ (.65 x (.7 LWL + .3 LOA) x Beam1.33)

  • D: Displacement of the boat in pounds
  • LWL: Waterline length in feet
  • LOA: Length overall in feet
  • Beam: Width of boat at the widest point in feet
6.81
<20: lightweight racing boat
20-30: coastal cruiser
30-40: moderate bluewater cruising boat
40-50: heavy bluewater boat
>50: extremely heavy bluewater boat
Capsize Screening
2.8
>2.0: better suited for coastal cruising

Capsize Screening Formula

This formula attempts to indicate whether a given boat might be too wide and light to readily right itself after being overturned in extreme conditions. Read more.

Formula

CSV = Beam ÷ ³√(D / 64)

  • Beam: Width of boat at the widest point in feet
  • D: Displacement of the boat in pounds
2.78
<2: better suited for ocean passages
>2: better suited for coastal cruising

Notes

The HURRICANE, first built by Allied Aviation Corp.(USA), was more than likely the result of excess capacity experienced by many companies after war time contracts ran out. A HURRICANE class racing association was established for a few years on Long Island Sound (east coast USA). Palmer Scott and Co. (builder of boats for many years) purchased a number of bare hulls from Allied, redesigned the deck, added a keel and called it the SMYRA, which existed as a class in Massachusetts for a few years. (Some have said there was also a keel version of the HURRICANE) It was from an existing SMYRA hull that a plug was made for what became the RHODES 19 (Rhodes Design #508), first built by Marscot Plastics Co. and later by O’‘Day Corp..
Philip Rhodes was said to have a very loose policy about royalties paid for dinghies and smaller boats, relying more on their promotional value.

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