GATE Study Material- Architecture & Planning_ Formulals, Conversions and Data Required to Solve Gate Problems
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Formulals, Conversions and Data required to solve gate problems Conversions 1litre= .001 cubic meter 1m^3=1000litres 1BTU(british thermal unit) = 1055 joules 1 btu/hr=3.412 joules/s Area 100 cents = 1 Acre 1 Acre = 4840 sq yards 1 yard = 3' or 36" 1 cents = 435.60 sq ft 1 sq. m = 10.76 sq. ft 1 Acre= 4047 sq m 2,47 cents = 1 are(100 sq meter) 2.47 acres = 1 hectare(10,000 sq meters) Fibonacci series Fn= Fn1 + Fn2 0,1,1,2,3,5,8,13,21.... Golden Ratio
Slope/ Gradient http://en.wikipedia.org/wiki/Grade_(slope) Contour interval: the difference in altitude represented by the space between two contour lines on a map
PERT Te(expected time)= (O +4M + P)/6 where O=optimistic time, M= most likely time, P=pessimistic time. V(variance)=( (PO)/6)^2 Project variance= sum of variances along the critical path
Standard deviation = sq root of variance unit mass of reinforced concrete= 2400kg/m3 unit wt of reinfirced concrete= 2400 * 10(9.8)N/m3 density of steel = 7850kg/m3 BM and SF diagram http://www.youtube.com/watch?v=q0DghZBRAU Hooks Law, Young;s Modulus, Bulk Modulus, Poisson's Ratio http://www.youtube.com/watch?v=QMmOMLstGm0 Scale of Aerial Photograph = Focal length/ Altitude above Ground level Forecasting Population Arithmatic method dP/dt = Ka P = P1 + Ka (t t1 )
P = population t = time Ka = arithmetic growth constant Geometric method
dP/dt= KgP lnP = lnP1 + Kg (t t1 ) Kg =lnP2lnP1/t2t1 = ln[P2/P1]/t2t1
P = population t = time Kg = geometric growth constant Note: lim (1+K)1/K = e = 2.718… base of the natural logarithms K0
1 lux = 1 lumen/sq meter lux is the unit of illuminance Flux= illumination required(lux) x surface area(sq m) Flux(lumen output)(received)= MF(maintenance factor) x UF(utilization factor) x Flux(installed) depreciation factor = reciprocal of maintenance factor lux=candela/d^2 cd(candela) = lm(lumen) / ( 2π(1 cos(º/2)) ) for isotrophic light source(all directions), lumen = candela x 4x22/7 http://www.compuphase.com/electronics/candela_lumen.htm Room Index(RI)= Lx W/[Hm x (L+W)] Hm=mounting height Spacing to height ratio SHR= 1/Hm x[ (A/N)^ 1/2] Acoustics T(reverbaration time in seconds)= .161x V(volume in m3)/A(sound absorption power in m2sabine = area x coeffcient of absorption) Lp = 20 log 10 (Prms/Pref) dB Lp2 = Lp1 + 20 log10 (r1/r2) lpsound pressure sound level 10 log 10 (Prms/Pref) dB
The handling capacity(lifts) is calculated by the formula: H= 3OOxQx100 /TXP where H = handling capacity as the percentage of the peak population handled during 5 min period, Q = average number of passengers carried in a car, T = waiting interval, and P = total population to be handled during peak morning period. (It is related to the area served by a particular bank of lifts.) The value of ‘Q’ depends on the dimensions of the car. It may be noted that the car is not loaded always to its maximum capacity during each trip and, therefore, for calculating ‘H” the value of ‘Q’ is taken as 80 percent of the maximum carrying capacity of the car. The waiting interval is calculated by the formula: T= RTT/N
iv where T = waiting interval; N = number of lifts, and RTT= round trip time, that is, the average time required by each lift in taking one full load of passengers from ground floor, discharging them in various upper floors and coming back to ground floor for taking fresh passengers for the next trip.
Thermal transmittance, also known as Uvalue, is the rate of transfer of heat (in watts) through one square metre of a structure divided by the difference in temperature across the structure. It is expressed in watts per metres squared kelvin, or W/m²K. Wellinsulated parts of a building have a low thermal transmittance whereas poorly insulated parts of a building have a high thermal transmittance. Φ = A × U × (T 1 T 2) where Φ is the heat transfer in watts, U is the thermal transmittance, T 1 is the temperature on one side of the structure, T 2 is the temperature on the other side of the structure and A is the area in square metres. The formula for ventilation heat loss is: Q = N . V . Sp.ht . dt Where; Q = heat loss (Watts) (W) N = Number of air changes per hour. An air change is one room volume. V = Room volume (m3) Sp.ht. = Specific heat factor for air. This is found from the following formula. Sp. Ht. Factor = ( Specific heat capacity of air x 1000 to convert from kJ to Joules x density of air ) / 3600 to convert from hr to secs. Sp. Ht. Factor = (1.01 x 1000 x 1.2 ) / ( 3600 ) Sp. Ht. Factor = 0.34 dt = temperature difference between inside and outside (oC) Duct cross sectional area A(m2)= q(air flow rate m3/s)/v(air speed m/s)
Traffic formulas q(flow=no vehicles /time)=1/h(time headway=time between rear bumper to rear bumper) density k=n/distance(number of vehicles occupying a given lengthnof highway distance headway= distance between corresponding points in two
successive vehicles k(density)=1/s(distance headway)
Plumbing and Water Supply Hazen Williams Formula used for pipes larger than 2" and smaller than 6' in dia v = 1.32.Ch.R^0.63.S^0.54 v= average velocity ft/s Ch=Hazen Williams Coefficient R=Hydraulic radius of flow conduit(ft) s=ratio of hL/L, energy loss/head lenghth of conduit(ft/ft) in SI Units v = 0.85.Ch.R^0.63.S^0.54 v= average velocity(m/s) Ch=Hazen Williams Coefficient R=Hydraulic radius of flow conduit(m) s=ratio of hL/L, energy loss/head lenghth of conduit(m/m) Volume flow rate Q= Av
Ammortisation formula for sinking fund
Compound Interest
r= rate of interest as decimal n= no of times interest is compounded in ayear t= no of years
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