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Snow Load Report

1. Roof and Building Data

Ground Snow Load (Pg):	54.0	psf
Roof Pitch:	4	/12
Risk Category:	II
Eave-to-Ridge (W):	13	ft.
Terrain Category:	C
Exposure:	Fully Exposed
Thermal Factor (C_t):	1.10
Roof Surface:	Asphalt Shingles
Roof System:	Common Truss
Spacing:	24	in. o/c
Overhang:	12	in.

2. Design Loads

Top Chord Dead Load:	10	psf
Bottom Chord Dead Load:	5	psf
SF (Slope Factor) = 1/Cosine(Φ) = 1.05			(Dead loads specified on a projected horizontal basis take into account the effect of the pitch via a slope factor.)
Adj. TCDL (TCDL x SF):	10.5	psf

3. Design Assumptions

Code Standard:	ASCE 7-10
Number of Plies:	1	PLY
Bottom Chord Pitch:	0	/12

4. Snow Load Calculations

Calculate flat roof snow load p_f using the following equation:

p_f = 0.7C_eC_tI_sp_g

where:

p_f = Flat Roof Snow Load in psf
C_e = 0.90 = Exposure Factor, as determined by ASCE 7-10 Table 7-2 (Terrain Cat. C, Exp. Fully Exposed)
C_t = 1.10 = Thermal Factor, as determined by ASCE 7-10 Table 7-3
I_s = 1.00 = Importance Factor, as determined by ASCE 7-10 Table 1.5-2 (Risk Cat. II)
p_g = 54.0 psf = Ground Snow Load in psf

p_f = 0.7C_eC_tI_sp_g = 0.7(0.90)(1.10)(1.00)(54.0) = 37.4 psf

Snow Loads

VERONA MEADOWS GOLF RANGE

2905 Shady Oak Lane Verona, WI 53593

24-09

Gregory A. Karn, AIA

ARCH-AIDE, LLC Architects
8194 N. Riley Rd. Verona, WI 53593
ph. (608) 335-8159 https://www.facebook.com/ARCHAIDEarchitects/

9/13/2024

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A minimum roof snow load, p_m shall apply to monoslope, hip and gable roofs with slopes less than 15 degrees using the following equations:

Where p_g is 20 psf or less: p_m=I_sp_g
Where p_g exceeds 20 psf: p_m=I_s(20)

Roof slope is greater than 15 degrees, the minimum roof snow load, p_m, does not apply.

For locations where p_g is 20 psf or less, but not zero, all roofs with slopes (in degrees) less than W/50 with W in feet shall included a 5 psf rain-on-snow surcharge load. This additional load applies only to the sloped roof (balanced) load case and need not be used in combination with drift, sliding, unbalanced, minimum, or partial loads.

Roof slope in degrees (18.43°) is greater than W/50 = 0.3, the 5.0 psf rain-on-snow surcharge load does not apply.

Calculate sloped roof snow load p_s using the following equation:

p_s = C_sp_f

where:

p_s = Sloped Roof Snow Load in psf
C_s = 1.00 = Roof Slope Factor, as determined by ASCE 7-10 Sec. 7.4.1-7.4.4 and Figure 7-2
p_f = Flat Roof Snow Load in psf

Roof surface (Asphalt Shingles) is considered a "non-slippery" roof. For a C_t = 1.10 the roof slope factor C_s is given by the solid line of ASCE 7-10 Figure 7-2b.

p_s = C_sp_f = (1.00)(37.4) = 37.4 psf

Calculate unbalanced snow load for hip and gable roofs as shown in ASCE 7-10 Figure 7-5.
Unbalanced snow loads are required for roof pitches between 1/2 on 12 to 7 on 12.
Using the following equations:

γ = 0.13p_g + 14 (snow density)

(drift height) [if l_u < 20 ft., use l_u = 20 ft.]

(width of drift surcharge)

(drift surcharge snow load)

where:

γ = Snow density in pcf, not to exceed 30 pcf.
h_d = Drift height in feet, as determined by eqn. or ASCE 7-10 Fig. 7-9.
l_u = W = Ridge to eave distance in feet, windward side of roof.
S = 12/Roof Pitch
l_d = Width of drift surcharge in feet.
p_d = Drift Surcharge Snow Load in psf
ASCE 7-10 Figure 7-5

Snow Loads

VERONA MEADOWS GOLF RANGE

2905 Shady Oak Lane Verona, WI 53593

24-09

Gregory A. Karn, AIA

ARCH-AIDE, LLC Architects
8194 N. Riley Rd. Verona, WI 53593
ph. (608) 335-8159 https://www.facebook.com/ARCHAIDEarchitects/

9/13/2024

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Copyright © 2024

p_windward = 0.3p_s = (0.3)(37.4) = 11.2 psf
p_leeward = p_s = 37.4 psf

γ = 0.13(54.0) + 14 = 21.02 pcf

${\color{DarkRed}h_{d}=.43\sqrt[3]{20}\sqrt[4]{54.0+10}-1.5}$ = 1.80 ft. [l_u = 20 ft.]

${\color{DarkRed}l_{d}=\frac{8}{3}\times 1.80\times \sqrt{12/4}}$ = 8.32 ft.

${\color{DarkRed}p_{d}= \frac{1.80\times 21.02}{\sqrt{12/4}}}$ = 21.9 psf

On warm roofs apply a distributed 2p_f snow load on all overhanging portions as per ASCE 7-10 section 7.4.5.
No other loads except dead loads shall be present on the roof when this uniformly distributed load is applied.

2p_f = (2)(37.4) = 74.8 psf

13 ft.

10.5 psf

37.4 psf

5 psf

12 in.

R₁ = 1367.0 lbs

R₂ = 1367.0 lbs

12
|4

Out-to-out Span = 24.0 ft.

R₁ = D + S = 394.1 lbs + 973.0 lbs
R₂ = D + S = 394.1 lbs + 973.0 lbs

Snow Loads

VERONA MEADOWS GOLF RANGE

2905 Shady Oak Lane Verona, WI 53593

24-09

Gregory A. Karn, AIA

ARCH-AIDE, LLC Architects
8194 N. Riley Rd. Verona, WI 53593
ph. (608) 335-8159 https://www.facebook.com/ARCHAIDEarchitects/

9/13/2024

Subject

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13 ft.

10.5 psf

11.2 psf

37.4 psf

5 psf

12 in.

8.32 ft.

21.9 psf

R₁ = 960.9 lbs

R₂ = 1455.9 lbs

12
|4

R₁ = D + S = 394.1 lbs + 566.8 lbs
R₂ = D + S = 394.1 lbs + 1061.8 lbs

13 ft.

10.5 psf

74.8 psf

5 psf

12 in.

R₁ = 543.8 lbs

R₂ = 543.8 lbs

12
|4

R₁ = D + S = 394.1 lbs + 149.7 lbs
R₂ = D + S = 394.1 lbs + 149.7 lbs

Snow Loads

VERONA MEADOWS GOLF RANGE

2905 Shady Oak Lane Verona, WI 53593

24-09

Gregory A. Karn, AIA

ARCH-AIDE, LLC Architects
8194 N. Riley Rd. Verona, WI 53593
ph. (608) 335-8159 https://www.facebook.com/ARCHAIDEarchitects/

9/13/2024