An MS Access application was designed and tested to replace a paper card system for researching molecule licensing and generics data. This provided greater user accessibility, faster searching, easier editing and improved security. A second MS Access application was created linked to a Sybase database to extract ended and changed international products on a quarterly basis. This replaced manual tracking and saved 35 man hours per quarter while ensuring faster and more accurate reporting. Both applications have been in operation since 2001.
An MS Access application was designed and tested to replace a paper card system for researching molecule licensing and generics data. This provided greater user accessibility, faster searching, easier editing and improved security. A second MS Access application was created linked to a Sybase database to extract ended and changed international products on a quarterly basis. This replaced manual tracking and saved 35 man hours per quarter while ensuring faster and more accurate reporting. Both applications have been in operation since 2001.
The document discusses different circuit analysis techniques including node voltage analysis, mesh current analysis, and the use of conductance matrices. It provides examples of applying these techniques to solve for unknown voltages and currents in circuits containing multiple nodes and meshes. Key steps include setting up systems of equations using Kirchhoff's laws and the conductance matrix representation of the circuit to solve for the unknown variables. Solutions are obtained using techniques like Cramer's rule.
1. Inflation is a sustained increase in the general price level of goods, services and assets in an economy over a period of time. Its opposite phenomenon is deflation.
2. The main index used to measure inflation in Mongolia is the consumer price index, as calculated by the National Statistics Office.
3. Factors that typically contribute to inflation include increases in money supply, aggregate demand, costs of production, and import prices. Sustained high inflation is harmful to the economy.
The document discusses different circuit analysis techniques including node voltage analysis, mesh current analysis, and the use of conductance matrices. It provides examples of applying these techniques to solve for unknown voltages and currents in circuits containing multiple nodes and meshes. Key steps include setting up systems of equations using Kirchhoff's laws and the conductance matrix representation of the circuit to solve for the unknown variables. Solutions are obtained using techniques like Cramer's rule.
1. Inflation is a sustained increase in the general price level of goods, services and assets in an economy over a period of time. Its opposite phenomenon is deflation.
2. The main index used to measure inflation in Mongolia is the consumer price index, as calculated by the National Statistics Office.
3. Factors that typically contribute to inflation include increases in money supply, aggregate demand, costs of production, and import prices. Sustained high inflation is harmful to the economy.
10. 表 2-4-1 近車籠埔斷層調整因子 N A 與 N V
(a) 設計地震之調整因子
r≦2 km 2km<r≦5 km 5km<r≦8 km 8km<r≦12 km r>12 km
NA
1.23 1.16 1.07 1.03 1.00
r≦2 km 2km<r≦5 km 5km<r≦8 km 8km<r≦12 km r>12 km
NV
1.36 1.32 1.22 1.10 1.00
(b) 最大考量地震之調整因子
r≦2 km 2km<r≦5 km 5km<r≦8 km 8km<r≦12 km r>12 km
NA
1.25 1.20 1.10 1.03 1.00
r≦2 km 2km<r≦5 km 5km<r≦8 km 8km<r≦12 km r>12 km
NV
1.50 1.45 1.30 1.15 1.00
表 2-4-2 近獅潭與神卓山斷層調整因子 N A 與 N V
(a) 設計地震之調整因子
r≦2 km 2km<r≦5 km 5km<r≦8 km r>8 km
NA
1.28 1.20 1.10 1.00
r≦2 km 2km<r≦5 km 5km<r≦8 km r>8 km
NV
1.33 1.27 1.10 1.00
(b) 最大考量地震之調整因子
r≦2 km 2km<r≦5 km 5km<r≦8 km r>8 km
NA
1.26 1.18 1.05 1.00
r≦2 km 2km<r≦5 km 5km<r≦8 km r>8 km
NV
1.42 1.32 1.15 1.00
表 2-4-3 近屯子腳斷層調整因子 N A 與 N V
(a) 設計地震之調整因子
r≦2 km 2km<r≦5 km 5km<r≦10 km r>10 km
NA
1.28 1.20 1.10 1.00
r≦2 km 2km<r≦5 km 5km<r≦10 km r>10 km
NV
1.31 1.25 1.15 1.00
(b) 最大考量地震之調整因子
r≦2 km 2km<r≦5 km 5km<r≦10 km r>10 km
NA
1.26 1.17 1.05 1.00
r≦2 km 2km<r≦5 km 5km<r≦10 km r>10 km
NV
1.42 1.32 1.15 1.00
2-30
11. 表 2-4-4 近梅山斷層調整因子 N A 與 N V
(a) 設計地震之調整因子
r≦2 km 2km<r≦5 km 5km<r≦8 km r>8 km
NA
1.37 1.28 1.15 1.00
r≦2 km 2km<r≦5 km 5km<r≦8 km r>8 km
NV
1.44 1.36 1.20 1.00
(b) 最大考量地震之調整因子
r≦2 km 2km<r≦5 km 5km<r≦8 km r>8 km
NA
1.30 1.20 1.05 1.00
r≦2 km 2km<r≦5 km 5km<r≦8 km r>8 km
NV
1.48 1.36 1.15 1.00
表 2-4-5 近新化斷層調整因子 N A 與 N V
(a) 設計地震之調整因子
r≦2 km 2km<r≦5 km r>5 km
NA
1.23 1.06 1.00
r≦2 km 2km<r≦5 km r>5 km
NV
1.15 1.05 1.00
(b) 最大考量地震之調整因子
r≦2 km 2km<r≦5 km r>5 km
NA
1.29 1.10 1.00
r≦2 km 2km<r≦5 km r>5 km
NV
1.30 1.15 1.00
表 2-4-6 近大尖山與觸口斷層調整因子 N A 與 N V
(a) 設計地震之調整因子
r≦2 km 2km<r≦5 km 5km<r≦8 km r>8 km
NA
1.15 1.08 1.00 1.00
r≦2 km 2km<r≦5 km 5km<r≦8 km r>8 km
NV
1.15 1.10 1.03 1.00
(b) 最大考量地震之調整因子
r≦2 km 2km<r≦5 km 5km<r≦8 km r>8 km
NA
1.21 1.17 1.05 1.00
r≦2 km 2km<r≦5 km 5km<r≦8 km r>8 km
NV
1.42 1.35 1.15 1.00
2-31
12. 表 2-4-7 近花東地區斷層(含米崙、玉里、池上與奇美斷層)調整因子 N A 與 N V
(a) 設計地震之調整因子
r≦2 km 2km<r≦5 km 5km<r≦8 km 8km<r≦12 km r>12 km
NA
1.42 1.37 1.28 1.14 1.00
r≦2 km 2km<r≦5 km 5km<r≦8 km 8km<r≦12 km r>12 km
NV
1.58 1.53 1.38 1.20 1.00
(b) 最大考量地震之調整因子
r≦2 km 2km<r≦5 km 5km<r≦8 km 8km<r≦12 km 12km<r≦15km r>15 km
NA
1.32 1.26 1.10 1.02 1.00 1.00
r≦2 km 2km<r≦5 km 5km<r≦8 km 8km<r≦12 km 12km<r≦15km r>15 km
NV
1.58 1.48 1.30 1.16 1.05 1.00
表 2-5(a) 一般工址或近斷層區域之工址設計水平譜加速度係數 SaD
較短週期 短週期 中週期 長週期
T≤0.2 T0D 0.2 T0D <T≤ T0D T0D <T≤2.5 T0D 2.5 T0D <T
SaD = SDS(0.4+3T/ T0D ) SaD = SDS SaD = SD1/T SaD = 0.4SDS
表 2-5(b) 一般工址或近斷層區域之工址最大水平譜加速度係數 SaM
較短週期 短週期 中週期 長週期
T≤0.2 T0M 0.2 T0M <T≤ T0M T0M <T≤2.5 T0M 2.5 T0M <T
SaM= SMS(0.4+3T/ T0M ) SaM= SMS SaM= SM1/T SaM = 0.4SMS
2-32