Download presentation
Presentation is loading. Please wait.
PublishWhitney Copeland Modified over 8 years ago
1
Geography Project by: Kung Xue En (15) Cheng Wan Li (06) Ryan Kang (22) Zachary Chu (08)
2
Content Introduction Locations and Descriptions Data Collected Analysis Conclusion
3
Introduction Aim: To find out the factors affecting the difference in temperature. Hypothesis: Concrete areas are hotter than non-concrete areas.
4
Locations and Descriptions Location A: Top floor of Multi-storey Carpark o Description: Day 1: Sunny, a little windy, no cover Day 2: Sunny, no wind, cloud cover
5
Location and Descriptions Location B: Garden outside printing room o Descriptions: Day 1: covered with plants, windy, no cover Day 2: covered with plants, windy, no cover
6
Location and Descriptions Location C: Open space between canteen and Block o Descriptions: Day 1: shady, concrete, windy Day 2: shady, concrete, no wind
7
Location and Descriptions Location D: Terraces o Descriptions: Day 1: very windy, cloud cover, open Day 2: very windy, cloud cover, quite sunny
8
Location and Descriptions Location E: Field o Descriptions: Day 1: grass covered, cloud cover, windy, open Day 2: grass covered, no cover, windy, open
9
Location and Descriptions Location F: Running Track o Descriptions: Day 1: rubbery, cloud cover, less wind, open Day 2: rubbery, no cover, windy, open
10
Location and Descriptions Location G: Fountain area outside General Office o Descriptions: Day 1: windy, cloud cover, open Day 2: sunny, a little windy
11
Data Collection (Day 1) SitesTemperature (Degree Celsius) 15cm above ground1.5m above ground A (MSCP)30.831.8 B (Garden)32.431.6 C (Between Canteen & Block C ) 34.032.5 D (Terraces)31.029.7 E (Field)30.731.1 F (Running Track)32.230.8 G (Fountain)31.331.5
12
Data Collection (Day 2) Sites Temperature (Degree Celsius) 15cm above ground1.5m above ground A (MSCP)30.831.8 B (Garden)32.431.6 C (Between Canteen & Block C ) 34.032.5 D (Terraces)31.029.7 E (Field)30.731.1 F (Running Track)32.230.8 G (Fountain)31.331.5
13
Analysis Concrete areas Non-Concrete areas Area A (MSCP)-30.2 Area B (Garden)- 30.05 Area C (Open Space)-30.9 Area E (Field)- 30.1 Area D (Terraces)-29.7 Area F (Running Area G (Fountain Area)-30.15 Track)- 30.05 Average: 30.24 Average: 30.07
14
Conclusion Due to the fact that concrete is better conductor of heat compared to rubber and grass, concrete areas would be hotter than Non-Concrete areas. Our hypothesis was accepted.
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.