cascade model: increasing n represents smaller scales
DESCRIPTION
Cascade model: increasing N represents smaller scales. M(N)= r g l 3. Probability varies with level. S min. 1. 2. Highest probability and size at each level gives primary size distrib. Cascade model: increasing N represents smaller scales. M(N)= r g l 3. Probability varies - PowerPoint PPT PresentationTRANSCRIPT
Cascade model: increasing N represents smaller scales
Probability varies
with level1
2
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level1
2
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level1
2
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level1
2
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level1
2
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level1
2
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level1
2
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level
1
2
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level
1
2
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level
1
2
Highest probability and size at each level gives primary size distrib
SminFp(>T)
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level
1
2
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level
1
2
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level
1
2
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level
1
2
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level
1
2
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level
1
2
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level
12
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3
Cascade model: increasing N represents smaller scales
Probability varies
with level
12
Highest probability and size at each level gives primary size distrib
Smin
M(N)=gl3