id stringlengths 11 27 | chunk_id stringlengths 11 27 | text stringclasses 8
values | start_text int64 248 8.66k | stop_text int64 281 8.79k | code stringclasses 8
values | start_code int64 0 4.38k | stop_code int64 75 4.86k | __index_level_0__ int64 0 17 |
|---|---|---|---|---|---|---|---|---|
ice_on_incline-0 | ice_on_incline-0 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 7,284 | 7,346 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 1,231 | 1,242 | 0 |
ice_on_incline-1 | ice_on_incline-1 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 1,230 | 1,284 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 393 | 404 | 1 |
ice_on_incline-2 | ice_on_incline-2 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 2,536 | 2,618 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 415 | 566 | 2 |
ice_on_incline-3 | ice_on_incline-3 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 2,985 | 3,035 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 641 | 669 | 3 |
ice_on_incline-4 | ice_on_incline-4 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 7,111 | 7,281 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 1,157 | 1,229 | 4 |
ice_on_incline-5 | ice_on_incline-5 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 661 | 717 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 80 | 187 | 5 |
ice_on_incline-6 | ice_on_incline-6 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 3,665 | 3,725 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 722 | 737 | 6 |
ice_on_incline-7 | ice_on_incline-7 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 1,173 | 1,221 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 190 | 391 | 7 |
ice_on_incline-8 | ice_on_incline-8 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 4,328 | 4,366 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 796 | 811 | 8 |
ice_on_incline-9 | ice_on_incline-9 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 7,349 | 7,485 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 1,244 | 1,277 | 9 |
ice_on_incline-10 | ice_on_incline-10 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 7,491 | 7,575 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 1,279 | 1,325 | 10 |
ice_on_incline-11 | ice_on_incline-11 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 5,556 | 5,639 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 959 | 982 | 11 |
ice_on_incline-12 | ice_on_incline-12 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 5,506 | 5,549 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 941 | 957 | 12 |
ice_on_incline-13 | ice_on_incline-13 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 2,668 | 2,774 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 579 | 629 | 13 |
ice_on_incline-14 | ice_on_incline-14 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 3,557 | 3,604 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 674 | 720 | 14 |
ice_on_incline-15 | ice_on_incline-15 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 4,190 | 4,228 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 750 | 794 | 15 |
ice_on_incline-16 | ice_on_incline-16 | Ice on an incline
This activity can be run by students after a live experiment with "glacier goo" used on various slopes. In this notebook, we use a numerical simulation to study the difference in ice flow between bed of various slopes.
First, we set up the tools that we will use. You won't need to modify these.
The ... | 248 | 281 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
top_elev = 3400 # m, the peak elevation
bottom_elev = 1500 # m, the elevation at the bottom of the glacier
bed_width = 300 # m, the constant width of the rectangular valley
bed_slope = 10 # degrees, the slope of the bed
bed = GlacierBe... | 3 | 76 | 16 |
ice_flow_parameters-0 | ice_flow_parameters-0 | Influence of ice flow parameters on glacier size
Goals of this notebook:
The student will be able to create a glacier and change Glen's creep parameter and basal sliding parameter.
The student will be able to explain the influences of the two parameters on glacier shape.
The motion of glaciers is determined by two mai... | 1,436 | 1,578 |
from oggm_edu import GlacierBed, MassBalance, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
glacier.creep
collection = GlacierCollection()
collection.fill(glacier, n=3)
coll... | 252 | 316 | 0 |
ice_flow_parameters-1 | ice_flow_parameters-1 | Influence of ice flow parameters on glacier size
Goals of this notebook:
The student will be able to create a glacier and change Glen's creep parameter and basal sliding parameter.
The student will be able to explain the influences of the two parameters on glacier shape.
The motion of glaciers is determined by two mai... | 1,581 | 1,657 |
from oggm_edu import GlacierBed, MassBalance, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
glacier.creep
collection = GlacierCollection()
collection.fill(glacier, n=3)
coll... | 329 | 391 | 1 |
ice_flow_parameters-2 | ice_flow_parameters-2 | Influence of ice flow parameters on glacier size
Goals of this notebook:
The student will be able to create a glacier and change Glen's creep parameter and basal sliding parameter.
The student will be able to explain the influences of the two parameters on glacier shape.
The motion of glaciers is determined by two mai... | 1,725 | 1,744 |
from oggm_edu import GlacierBed, MassBalance, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
glacier.creep
collection = GlacierCollection()
collection.fill(glacier, n=3)
coll... | 428 | 446 | 2 |
ice_flow_parameters-3 | ice_flow_parameters-3 | Influence of ice flow parameters on glacier size
Goals of this notebook:
The student will be able to create a glacier and change Glen's creep parameter and basal sliding parameter.
The student will be able to explain the influences of the two parameters on glacier shape.
The motion of glaciers is determined by two mai... | 587 | 609 |
from oggm_edu import GlacierBed, MassBalance, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
glacier.creep
collection = GlacierCollection()
collection.fill(glacier, n=3)
coll... | 79 | 233 | 3 |
ice_flow_parameters-4 | ice_flow_parameters-4 | Influence of ice flow parameters on glacier size
Goals of this notebook:
The student will be able to create a glacier and change Glen's creep parameter and basal sliding parameter.
The student will be able to explain the influences of the two parameters on glacier shape.
The motion of glaciers is determined by two mai... | 2,077 | 2,197 |
from oggm_edu import GlacierBed, MassBalance, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
glacier.creep
collection = GlacierCollection()
collection.fill(glacier, n=3)
coll... | 564 | 659 | 4 |
ice_flow_parameters-5 | ice_flow_parameters-5 | Influence of ice flow parameters on glacier size
Goals of this notebook:
The student will be able to create a glacier and change Glen's creep parameter and basal sliding parameter.
The student will be able to explain the influences of the two parameters on glacier shape.
The motion of glaciers is determined by two mai... | 919 | 970 |
from oggm_edu import GlacierBed, MassBalance, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
glacier.creep
collection = GlacierCollection()
collection.fill(glacier, n=3)
coll... | 236 | 250 | 5 |
ice_flow_parameters-6 | ice_flow_parameters-6 | Influence of ice flow parameters on glacier size
Goals of this notebook:
The student will be able to create a glacier and change Glen's creep parameter and basal sliding parameter.
The student will be able to explain the influences of the two parameters on glacier shape.
The motion of glaciers is determined by two mai... | 1,663 | 1,718 |
from oggm_edu import GlacierBed, MassBalance, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
glacier.creep
collection = GlacierCollection()
collection.fill(glacier, n=3)
coll... | 393 | 426 | 6 |
ice_flow_parameters-7 | ice_flow_parameters-7 | Influence of ice flow parameters on glacier size
Goals of this notebook:
The student will be able to create a glacier and change Glen's creep parameter and basal sliding parameter.
The student will be able to explain the influences of the two parameters on glacier shape.
The motion of glaciers is determined by two mai... | 1,946 | 2,025 |
from oggm_edu import GlacierBed, MassBalance, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
glacier.creep
collection = GlacierCollection()
collection.fill(glacier, n=3)
coll... | 476 | 498 | 7 |
ice_flow_parameters-8 | ice_flow_parameters-8 | Influence of ice flow parameters on glacier size
Goals of this notebook:
The student will be able to create a glacier and change Glen's creep parameter and basal sliding parameter.
The student will be able to explain the influences of the two parameters on glacier shape.
The motion of glaciers is determined by two mai... | 2,199 | 2,226 |
from oggm_edu import GlacierBed, MassBalance, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
glacier.creep
collection = GlacierCollection()
collection.fill(glacier, n=3)
coll... | 661 | 679 | 8 |
ice_flow_parameters-9 | ice_flow_parameters-9 | Influence of ice flow parameters on glacier size
Goals of this notebook:
The student will be able to create a glacier and change Glen's creep parameter and basal sliding parameter.
The student will be able to explain the influences of the two parameters on glacier shape.
The motion of glaciers is determined by two mai... | 544 | 585 |
from oggm_edu import GlacierBed, MassBalance, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
glacier.creep
collection = GlacierCollection()
collection.fill(glacier, n=3)
coll... | 4 | 77 | 9 |
temperature_index_model-0 | temperature_index_model-0 | Temperature index models
Goals of this notebook:
Gain a basic understanding of temperature index models
Implement OGGM's temperature index model for a glacier of interest
This version of the notebook works for OGGM versions before 1.6. We will keep this notebook here for a while longer (e.g.: for classroom.oggm.org), ... | 8,662 | 8,788 | import matplotlib.pyplot as plt
import seaborn as sns
sns.set_context('notebook')
sns.set_style('ticks')
import numpy as np
import oggm
from oggm import utils, cfg, workflow, graphics
cfg.initialize()
cfg.PATHS['working_dir'] = utils.gettempdir('ti_model')
cfg.PARAMS['border'] = 10
print('T_solid = {}°C'.format... | 2,209 | 2,266 | 0 |
temperature_index_model-1 | temperature_index_model-1 | Temperature index models
Goals of this notebook:
Gain a basic understanding of temperature index models
Implement OGGM's temperature index model for a glacier of interest
This version of the notebook works for OGGM versions before 1.6. We will keep this notebook here for a while longer (e.g.: for classroom.oggm.org), ... | 5,674 | 5,799 | import matplotlib.pyplot as plt
import seaborn as sns
sns.set_context('notebook')
sns.set_style('ticks')
import numpy as np
import oggm
from oggm import utils, cfg, workflow, graphics
cfg.initialize()
cfg.PATHS['working_dir'] = utils.gettempdir('ti_model')
cfg.PARAMS['border'] = 10
print('T_solid = {}°C'.format... | 541 | 584 | 1 |
temperature_index_model-2 | temperature_index_model-2 | Temperature index models
Goals of this notebook:
Gain a basic understanding of temperature index models
Implement OGGM's temperature index model for a glacier of interest
This version of the notebook works for OGGM versions before 1.6. We will keep this notebook here for a while longer (e.g.: for classroom.oggm.org), ... | 5,821 | 5,865 | import matplotlib.pyplot as plt
import seaborn as sns
sns.set_context('notebook')
sns.set_style('ticks')
import numpy as np
import oggm
from oggm import utils, cfg, workflow, graphics
cfg.initialize()
cfg.PATHS['working_dir'] = utils.gettempdir('ti_model')
cfg.PARAMS['border'] = 10
print('T_solid = {}°C'.format... | 643 | 706 | 2 |
temperature_index_model-3 | temperature_index_model-3 | Temperature index models
Goals of this notebook:
Gain a basic understanding of temperature index models
Implement OGGM's temperature index model for a glacier of interest
This version of the notebook works for OGGM versions before 1.6. We will keep this notebook here for a while longer (e.g.: for classroom.oggm.org), ... | 6,129 | 6,312 | import matplotlib.pyplot as plt
import seaborn as sns
sns.set_context('notebook')
sns.set_style('ticks')
import numpy as np
import oggm
from oggm import utils, cfg, workflow, graphics
cfg.initialize()
cfg.PATHS['working_dir'] = utils.gettempdir('ti_model')
cfg.PARAMS['border'] = 10
print('T_solid = {}°C'.format... | 760 | 808 | 3 |
temperature_index_model-4 | temperature_index_model-4 | Temperature index models
Goals of this notebook:
Gain a basic understanding of temperature index models
Implement OGGM's temperature index model for a glacier of interest
This version of the notebook works for OGGM versions before 1.6. We will keep this notebook here for a while longer (e.g.: for classroom.oggm.org), ... | 7,987 | 8,018 | import matplotlib.pyplot as plt
import seaborn as sns
sns.set_context('notebook')
sns.set_style('ticks')
import numpy as np
import oggm
from oggm import utils, cfg, workflow, graphics
cfg.initialize()
cfg.PATHS['working_dir'] = utils.gettempdir('ti_model')
cfg.PARAMS['border'] = 10
print('T_solid = {}°C'.format... | 1,937 | 2,206 | 4 |
temperature_index_model-5 | temperature_index_model-5 | Temperature index models
Goals of this notebook:
Gain a basic understanding of temperature index models
Implement OGGM's temperature index model for a glacier of interest
This version of the notebook works for OGGM versions before 1.6. We will keep this notebook here for a while longer (e.g.: for classroom.oggm.org), ... | 3,976 | 4,063 | import matplotlib.pyplot as plt
import seaborn as sns
sns.set_context('notebook')
sns.set_style('ticks')
import numpy as np
import oggm
from oggm import utils, cfg, workflow, graphics
cfg.initialize()
cfg.PATHS['working_dir'] = utils.gettempdir('ti_model')
cfg.PARAMS['border'] = 10
print('T_solid = {}°C'.format... | 291 | 407 | 5 |
temperature_index_model-6 | temperature_index_model-6 | Temperature index models
Goals of this notebook:
Gain a basic understanding of temperature index models
Implement OGGM's temperature index model for a glacier of interest
This version of the notebook works for OGGM versions before 1.6. We will keep this notebook here for a while longer (e.g.: for classroom.oggm.org), ... | 6,563 | 6,641 | import matplotlib.pyplot as plt
import seaborn as sns
sns.set_context('notebook')
sns.set_style('ticks')
import numpy as np
import oggm
from oggm import utils, cfg, workflow, graphics
cfg.initialize()
cfg.PATHS['working_dir'] = utils.gettempdir('ti_model')
cfg.PARAMS['border'] = 10
print('T_solid = {}°C'.format... | 888 | 950 | 6 |
temperature_index_model-7 | temperature_index_model-7 | Temperature index models
Goals of this notebook:
Gain a basic understanding of temperature index models
Implement OGGM's temperature index model for a glacier of interest
This version of the notebook works for OGGM versions before 1.6. We will keep this notebook here for a while longer (e.g.: for classroom.oggm.org), ... | 5,559 | 5,596 | import matplotlib.pyplot as plt
import seaborn as sns
sns.set_context('notebook')
sns.set_style('ticks')
import numpy as np
import oggm
from oggm import utils, cfg, workflow, graphics
cfg.initialize()
cfg.PATHS['working_dir'] = utils.gettempdir('ti_model')
cfg.PARAMS['border'] = 10
print('T_solid = {}°C'.format... | 408 | 505 | 7 |
temperature_index_model-8 | temperature_index_model-8 | Temperature index models
Goals of this notebook:
Gain a basic understanding of temperature index models
Implement OGGM's temperature index model for a glacier of interest
This version of the notebook works for OGGM versions before 1.6. We will keep this notebook here for a while longer (e.g.: for classroom.oggm.org), ... | 6,892 | 7,165 | import matplotlib.pyplot as plt
import seaborn as sns
sns.set_context('notebook')
sns.set_style('ticks')
import numpy as np
import oggm
from oggm import utils, cfg, workflow, graphics
cfg.initialize()
cfg.PATHS['working_dir'] = utils.gettempdir('ti_model')
cfg.PARAMS['border'] = 10
print('T_solid = {}°C'.format... | 1,355 | 1,486 | 8 |
temperature_index_model-9 | temperature_index_model-9 | Temperature index models
Goals of this notebook:
Gain a basic understanding of temperature index models
Implement OGGM's temperature index model for a glacier of interest
This version of the notebook works for OGGM versions before 1.6. We will keep this notebook here for a while longer (e.g.: for classroom.oggm.org), ... | 7,829 | 7,906 | import matplotlib.pyplot as plt
import seaborn as sns
sns.set_context('notebook')
sns.set_style('ticks')
import numpy as np
import oggm
from oggm import utils, cfg, workflow, graphics
cfg.initialize()
cfg.PATHS['working_dir'] = utils.gettempdir('ti_model')
cfg.PARAMS['border'] = 10
print('T_solid = {}°C'.format... | 1,718 | 1,935 | 9 |
temperature_index_model-10 | temperature_index_model-10 | Temperature index models
Goals of this notebook:
Gain a basic understanding of temperature index models
Implement OGGM's temperature index model for a glacier of interest
This version of the notebook works for OGGM versions before 1.6. We will keep this notebook here for a while longer (e.g.: for classroom.oggm.org), ... | 7,508 | 7,573 | import matplotlib.pyplot as plt
import seaborn as sns
sns.set_context('notebook')
sns.set_style('ticks')
import numpy as np
import oggm
from oggm import utils, cfg, workflow, graphics
cfg.initialize()
cfg.PATHS['working_dir'] = utils.gettempdir('ti_model')
cfg.PARAMS['border'] = 10
print('T_solid = {}°C'.format... | 1,489 | 1,535 | 10 |
temperature_index_model-11 | temperature_index_model-11 | Temperature index models
Goals of this notebook:
Gain a basic understanding of temperature index models
Implement OGGM's temperature index model for a glacier of interest
This version of the notebook works for OGGM versions before 1.6. We will keep this notebook here for a while longer (e.g.: for classroom.oggm.org), ... | 5,878 | 5,895 | import matplotlib.pyplot as plt
import seaborn as sns
sns.set_context('notebook')
sns.set_style('ticks')
import numpy as np
import oggm
from oggm import utils, cfg, workflow, graphics
cfg.initialize()
cfg.PATHS['working_dir'] = utils.gettempdir('ti_model')
cfg.PARAMS['border'] = 10
print('T_solid = {}°C'.format... | 708 | 757 | 11 |
temperature_index_model-12 | temperature_index_model-12 | Temperature index models
Goals of this notebook:
Gain a basic understanding of temperature index models
Implement OGGM's temperature index model for a glacier of interest
This version of the notebook works for OGGM versions before 1.6. We will keep this notebook here for a while longer (e.g.: for classroom.oggm.org), ... | 6,394 | 6,436 | import matplotlib.pyplot as plt
import seaborn as sns
sns.set_context('notebook')
sns.set_style('ticks')
import numpy as np
import oggm
from oggm import utils, cfg, workflow, graphics
cfg.initialize()
cfg.PATHS['working_dir'] = utils.gettempdir('ti_model')
cfg.PARAMS['border'] = 10
print('T_solid = {}°C'.format... | 824 | 878 | 12 |
temperature_index_model-13 | temperature_index_model-13 | Temperature index models
Goals of this notebook:
Gain a basic understanding of temperature index models
Implement OGGM's temperature index model for a glacier of interest
This version of the notebook works for OGGM versions before 1.6. We will keep this notebook here for a while longer (e.g.: for classroom.oggm.org), ... | 6,648 | 6,736 | import matplotlib.pyplot as plt
import seaborn as sns
sns.set_context('notebook')
sns.set_style('ticks')
import numpy as np
import oggm
from oggm import utils, cfg, workflow, graphics
cfg.initialize()
cfg.PATHS['working_dir'] = utils.gettempdir('ti_model')
cfg.PARAMS['border'] = 10
print('T_solid = {}°C'.format... | 969 | 1,351 | 13 |
temperature_index_model-14 | temperature_index_model-14 | Temperature index models
Goals of this notebook:
Gain a basic understanding of temperature index models
Implement OGGM's temperature index model for a glacier of interest
This version of the notebook works for OGGM versions before 1.6. We will keep this notebook here for a while longer (e.g.: for classroom.oggm.org), ... | 449 | 463 | import matplotlib.pyplot as plt
import seaborn as sns
sns.set_context('notebook')
sns.set_style('ticks')
import numpy as np
import oggm
from oggm import utils, cfg, workflow, graphics
cfg.initialize()
cfg.PATHS['working_dir'] = utils.gettempdir('ti_model')
cfg.PARAMS['border'] = 10
print('T_solid = {}°C'.format... | 206 | 289 | 14 |
edu_intro-0 | edu_intro-0 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 6,413 | 6,455 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 1,593 | 1,626 | 0 |
edu_intro-1 | edu_intro-1 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 1,371 | 1,706 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 249 | 600 | 1 |
edu_intro-2 | edu_intro-2 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 6,912 | 6,943 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 1,723 | 1,741 | 2 |
edu_intro-3 | edu_intro-3 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 2,258 | 2,333 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 634 | 683 | 3 |
edu_intro-4 | edu_intro-4 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 2,736 | 2,766 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 766 | 794 | 4 |
edu_intro-5 | edu_intro-5 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 6,369 | 6,411 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 1,462 | 1,570 | 5 |
edu_intro-6 | edu_intro-6 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 1,096 | 1,157 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 138 | 149 | 6 |
edu_intro-7 | edu_intro-7 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 3,366 | 3,414 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 823 | 869 | 7 |
edu_intro-8 | edu_intro-8 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 1,275 | 1,369 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 152 | 225 | 8 |
edu_intro-9 | edu_intro-9 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 3,974 | 4,006 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 913 | 943 | 9 |
edu_intro-10 | edu_intro-10 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 6,724 | 6,786 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 1,675 | 1,686 | 10 |
edu_intro-11 | edu_intro-11 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 6,788 | 6,909 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 1,688 | 1,721 | 11 |
edu_intro-12 | edu_intro-12 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 6,065 | 6,201 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 1,306 | 1,418 | 12 |
edu_intro-13 | edu_intro-13 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 4,506 | 4,589 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 1,260 | 1,276 | 13 |
edu_intro-14 | edu_intro-14 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 2,373 | 2,479 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 699 | 753 | 14 |
edu_intro-15 | edu_intro-15 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 2,779 | 2,805 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 796 | 811 | 15 |
edu_intro-16 | edu_intro-16 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 3,851 | 3,907 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 881 | 911 | 16 |
edu_intro-17 | edu_intro-17 | Getting started with OGGM Edu: idealised glaciers
OGGM Edu provides a simple way to experiment with glaciers on your computer. This is achieved by a high level interface to the different parts of the complex glacier model that is OGGM. You as a user will interact with a few objects that provide you with methods and att... | 500 | 546 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=300)
bed
bed.plot()
bed_with_slope = GlacierBed(top=3400, bottom=1500, width=300, slopes=25)
bed_with_slope.plot()
bed_with_multiple_slopes = GlacierBed(top=3400, bottom=1500, width=300,... | 2 | 75 | 17 |
accumulation_and_ablation-0 | accumulation_and_ablation-0 | Accumulation, ablation, mass Balance and the resulting ice flow
Goals of this notebook:
Gain a basic understanding of accumulation, ablation and glacier mass balance
Understand the link between mass balance and ice flow
Implement a simple experiment to calculate ice flow on a glacier in equilibrium
Copyright notice: ... | 6,296 | 6,318 | from oggm_edu import Glacier, MassBalance, GlacierBed
top = 3400
bottom = 0
wide_narrow_bed = GlacierBed(altitudes=[top, (top-bottom) * 2/3, bottom],
widths=[1500, 500, 500])
wide_narrow_bed.plot()
mass_balance = MassBalance(ela=(top-bottom)*2/3, gradient=3)
glacier = Glacier(bed=wide_nar... | 290 | 356 | 0 |
accumulation_and_ablation-1 | accumulation_and_ablation-1 | Accumulation, ablation, mass Balance and the resulting ice flow
Goals of this notebook:
Gain a basic understanding of accumulation, ablation and glacier mass balance
Understand the link between mass balance and ice flow
Implement a simple experiment to calculate ice flow on a glacier in equilibrium
Copyright notice: ... | 6,321 | 6,362 | from oggm_edu import Glacier, MassBalance, GlacierBed
top = 3400
bottom = 0
wide_narrow_bed = GlacierBed(altitudes=[top, (top-bottom) * 2/3, bottom],
widths=[1500, 500, 500])
wide_narrow_bed.plot()
mass_balance = MassBalance(ela=(top-bottom)*2/3, gradient=3)
glacier = Glacier(bed=wide_nar... | 372 | 406 | 1 |
accumulation_and_ablation-2 | accumulation_and_ablation-2 | Accumulation, ablation, mass Balance and the resulting ice flow
Goals of this notebook:
Gain a basic understanding of accumulation, ablation and glacier mass balance
Understand the link between mass balance and ice flow
Implement a simple experiment to calculate ice flow on a glacier in equilibrium
Copyright notice: ... | 7,643 | 7,701 | from oggm_edu import Glacier, MassBalance, GlacierBed
top = 3400
bottom = 0
wide_narrow_bed = GlacierBed(altitudes=[top, (top-bottom) * 2/3, bottom],
widths=[1500, 500, 500])
wide_narrow_bed.plot()
mass_balance = MassBalance(ela=(top-bottom)*2/3, gradient=3)
glacier = Glacier(bed=wide_nar... | 694 | 1,042 | 2 |
accumulation_and_ablation-3 | accumulation_and_ablation-3 | Accumulation, ablation, mass Balance and the resulting ice flow
Goals of this notebook:
Gain a basic understanding of accumulation, ablation and glacier mass balance
Understand the link between mass balance and ice flow
Implement a simple experiment to calculate ice flow on a glacier in equilibrium
Copyright notice: ... | 5,820 | 5,858 | from oggm_edu import Glacier, MassBalance, GlacierBed
top = 3400
bottom = 0
wide_narrow_bed = GlacierBed(altitudes=[top, (top-bottom) * 2/3, bottom],
widths=[1500, 500, 500])
wide_narrow_bed.plot()
mass_balance = MassBalance(ela=(top-bottom)*2/3, gradient=3)
glacier = Glacier(bed=wide_nar... | 206 | 229 | 3 |
accumulation_and_ablation-4 | accumulation_and_ablation-4 | Accumulation, ablation, mass Balance and the resulting ice flow
Goals of this notebook:
Gain a basic understanding of accumulation, ablation and glacier mass balance
Understand the link between mass balance and ice flow
Implement a simple experiment to calculate ice flow on a glacier in equilibrium
Copyright notice: ... | 5,860 | 5,893 | from oggm_edu import Glacier, MassBalance, GlacierBed
top = 3400
bottom = 0
wide_narrow_bed = GlacierBed(altitudes=[top, (top-bottom) * 2/3, bottom],
widths=[1500, 500, 500])
wide_narrow_bed.plot()
mass_balance = MassBalance(ela=(top-bottom)*2/3, gradient=3)
glacier = Glacier(bed=wide_nar... | 229 | 290 | 4 |
accumulation_and_ablation-5 | accumulation_and_ablation-5 | Accumulation, ablation, mass Balance and the resulting ice flow
Goals of this notebook:
Gain a basic understanding of accumulation, ablation and glacier mass balance
Understand the link between mass balance and ice flow
Implement a simple experiment to calculate ice flow on a glacier in equilibrium
Copyright notice: ... | 6,597 | 6,630 | from oggm_edu import Glacier, MassBalance, GlacierBed
top = 3400
bottom = 0
wide_narrow_bed = GlacierBed(altitudes=[top, (top-bottom) * 2/3, bottom],
widths=[1500, 500, 500])
wide_narrow_bed.plot()
mass_balance = MassBalance(ela=(top-bottom)*2/3, gradient=3)
glacier = Glacier(bed=wide_nar... | 422 | 452 | 5 |
accumulation_and_ablation-6 | accumulation_and_ablation-6 | Accumulation, ablation, mass Balance and the resulting ice flow
Goals of this notebook:
Gain a basic understanding of accumulation, ablation and glacier mass balance
Understand the link between mass balance and ice flow
Implement a simple experiment to calculate ice flow on a glacier in equilibrium
Copyright notice: ... | 5,614 | 5,818 | from oggm_edu import Glacier, MassBalance, GlacierBed
top = 3400
bottom = 0
wide_narrow_bed = GlacierBed(altitudes=[top, (top-bottom) * 2/3, bottom],
widths=[1500, 500, 500])
wide_narrow_bed.plot()
mass_balance = MassBalance(ela=(top-bottom)*2/3, gradient=3)
glacier = Glacier(bed=wide_nar... | 55 | 205 | 6 |
weather_forecast-0 | weather_forecast-0 | Weather Forecast with PixieDust
This notebook shows how to:
use the Weather Company Data API to get weather forecast json data based on latitude and longitude
convert this json data into a pandas DataFrame
create a weather chart and map with matplotlib
create a weather chart and map with PixieDust
Before running the ... | 1,377 | 1,421 | import requests
import json
import pandas as pd
import numpy as np
from datetime import datetime
import time
import pixiedust
lat = str(41.3850639)
lon = str(2.1734035)
print(lat, lon)
username='xxxx'
password='xxxx'
line='https://'+username+':'+password+\
'@twcservice.mybluemix.net/api/weather/v1/geocode/'+\
... | 642 | 742 | 0 |
weather_forecast-1 | weather_forecast-1 | Weather Forecast with PixieDust
This notebook shows how to:
use the Weather Company Data API to get weather forecast json data based on latitude and longitude
convert this json data into a pandas DataFrame
create a weather chart and map with matplotlib
create a weather chart and map with PixieDust
Before running the ... | 1,426 | 1,462 | import requests
import json
import pandas as pd
import numpy as np
from datetime import datetime
import time
import pixiedust
lat = str(41.3850639)
lon = str(2.1734035)
print(lat, lon)
username='xxxx'
password='xxxx'
line='https://'+username+':'+password+\
'@twcservice.mybluemix.net/api/weather/v1/geocode/'+\
... | 743 | 1,059 | 1 |
weather_forecast-2 | weather_forecast-2 | Weather Forecast with PixieDust
This notebook shows how to:
use the Weather Company Data API to get weather forecast json data based on latitude and longitude
convert this json data into a pandas DataFrame
create a weather chart and map with matplotlib
create a weather chart and map with PixieDust
Before running the ... | 1,731 | 1,837 | import requests
import json
import pandas as pd
import numpy as np
from datetime import datetime
import time
import pixiedust
lat = str(41.3850639)
lon = str(2.1734035)
print(lat, lon)
username='xxxx'
password='xxxx'
line='https://'+username+':'+password+\
'@twcservice.mybluemix.net/api/weather/v1/geocode/'+\
... | 1,196 | 1,231 | 2 |
weather_forecast-3 | weather_forecast-3 | Weather Forecast with PixieDust
This notebook shows how to:
use the Weather Company Data API to get weather forecast json data based on latitude and longitude
convert this json data into a pandas DataFrame
create a weather chart and map with matplotlib
create a weather chart and map with PixieDust
Before running the ... | 1,145 | 1,223 | import requests
import json
import pandas as pd
import numpy as np
from datetime import datetime
import time
import pixiedust
lat = str(41.3850639)
lon = str(2.1734035)
print(lat, lon)
username='xxxx'
password='xxxx'
line='https://'+username+':'+password+\
'@twcservice.mybluemix.net/api/weather/v1/geocode/'+\
... | 128 | 171 | 3 |
weather_forecast-4 | weather_forecast-4 | Weather Forecast with PixieDust
This notebook shows how to:
use the Weather Company Data API to get weather forecast json data based on latitude and longitude
convert this json data into a pandas DataFrame
create a weather chart and map with matplotlib
create a weather chart and map with PixieDust
Before running the ... | 1,872 | 1,907 | import requests
import json
import pandas as pd
import numpy as np
from datetime import datetime
import time
import pixiedust
lat = str(41.3850639)
lon = str(2.1734035)
print(lat, lon)
username='xxxx'
password='xxxx'
line='https://'+username+':'+password+\
'@twcservice.mybluemix.net/api/weather/v1/geocode/'+\
... | 4,379 | 4,858 | 4 |
weather_forecast-5 | weather_forecast-5 | Weather Forecast with PixieDust
This notebook shows how to:
use the Weather Company Data API to get weather forecast json data based on latitude and longitude
convert this json data into a pandas DataFrame
create a weather chart and map with matplotlib
create a weather chart and map with PixieDust
Before running the ... | 1,310 | 1,375 | import requests
import json
import pandas as pd
import numpy as np
from datetime import datetime
import time
import pixiedust
lat = str(41.3850639)
lon = str(2.1734035)
print(lat, lon)
username='xxxx'
password='xxxx'
line='https://'+username+':'+password+\
'@twcservice.mybluemix.net/api/weather/v1/geocode/'+\
... | 433 | 641 | 5 |
weather_forecast-6 | weather_forecast-6 | Weather Forecast with PixieDust
This notebook shows how to:
use the Weather Company Data API to get weather forecast json data based on latitude and longitude
convert this json data into a pandas DataFrame
create a weather chart and map with matplotlib
create a weather chart and map with PixieDust
Before running the ... | 1,514 | 1,557 | import requests
import json
import pandas as pd
import numpy as np
from datetime import datetime
import time
import pixiedust
lat = str(41.3850639)
lon = str(2.1734035)
print(lat, lon)
username='xxxx'
password='xxxx'
line='https://'+username+':'+password+\
'@twcservice.mybluemix.net/api/weather/v1/geocode/'+\
... | 1,071 | 1,184 | 6 |
weather_forecast-7 | weather_forecast-7 | Weather Forecast with PixieDust
This notebook shows how to:
use the Weather Company Data API to get weather forecast json data based on latitude and longitude
convert this json data into a pandas DataFrame
create a weather chart and map with matplotlib
create a weather chart and map with PixieDust
Before running the ... | 1,839 | 1,867 | import requests
import json
import pandas as pd
import numpy as np
from datetime import datetime
import time
import pixiedust
lat = str(41.3850639)
lon = str(2.1734035)
print(lat, lon)
username='xxxx'
password='xxxx'
line='https://'+username+':'+password+\
'@twcservice.mybluemix.net/api/weather/v1/geocode/'+\
... | 1,312 | 1,680 | 7 |
weather_forecast-8 | weather_forecast-8 | Weather Forecast with PixieDust
This notebook shows how to:
use the Weather Company Data API to get weather forecast json data based on latitude and longitude
convert this json data into a pandas DataFrame
create a weather chart and map with matplotlib
create a weather chart and map with PixieDust
Before running the ... | 787 | 833 | import requests
import json
import pandas as pd
import numpy as np
from datetime import datetime
import time
import pixiedust
lat = str(41.3850639)
lon = str(2.1734035)
print(lat, lon)
username='xxxx'
password='xxxx'
line='https://'+username+':'+password+\
'@twcservice.mybluemix.net/api/weather/v1/geocode/'+\
... | 0 | 126 | 8 |
mass_balance_gradients-0 | mass_balance_gradients-0 | Mass balance gradients (MBG) and their influence on glacier flow
In the intro notebook we touched briefly on the mass balance gradient of a glacier. This is what we are going to take a closer look at now. If the concept of mass balance is completely new to you, have a short read about it here, up to the paragraph "So w... | 1,461 | 1,644 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=400)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
collection = GlacierCollection()
collection.fill(glacier, n=3, attributes_to_change=
... | 381 | 561 | 0 |
mass_balance_gradients-1 | mass_balance_gradients-1 | Mass balance gradients (MBG) and their influence on glacier flow
In the intro notebook we touched briefly on the mass balance gradient of a glacier. This is what we are going to take a closer look at now. If the concept of mass balance is completely new to you, have a short read about it here, up to the paragraph "So w... | 3,067 | 3,180 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=400)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
collection = GlacierCollection()
collection.fill(glacier, n=3, attributes_to_change=
... | 686 | 887 | 1 |
mass_balance_gradients-2 | mass_balance_gradients-2 | Mass balance gradients (MBG) and their influence on glacier flow
In the intro notebook we touched briefly on the mass balance gradient of a glacier. This is what we are going to take a closer look at now. If the concept of mass balance is completely new to you, have a short read about it here, up to the paragraph "So w... | 4,261 | 4,317 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=400)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
collection = GlacierCollection()
collection.fill(glacier, n=3, attributes_to_change=
... | 965 | 983 | 2 |
mass_balance_gradients-3 | mass_balance_gradients-3 | Mass balance gradients (MBG) and their influence on glacier flow
In the intro notebook we touched briefly on the mass balance gradient of a glacier. This is what we are going to take a closer look at now. If the concept of mass balance is completely new to you, have a short read about it here, up to the paragraph "So w... | 773 | 834 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=400)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
collection = GlacierCollection()
collection.fill(glacier, n=3, attributes_to_change=
... | 79 | 233 | 3 |
mass_balance_gradients-4 | mass_balance_gradients-4 | Mass balance gradients (MBG) and their influence on glacier flow
In the intro notebook we touched briefly on the mass balance gradient of a glacier. This is what we are going to take a closer look at now. If the concept of mass balance is completely new to you, have a short read about it here, up to the paragraph "So w... | 5,783 | 5,819 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=400)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
collection = GlacierCollection()
collection.fill(glacier, n=3, attributes_to_change=
... | 1,108 | 1,130 | 4 |
mass_balance_gradients-5 | mass_balance_gradients-5 | Mass balance gradients (MBG) and their influence on glacier flow
In the intro notebook we touched briefly on the mass balance gradient of a glacier. This is what we are going to take a closer look at now. If the concept of mass balance is completely new to you, have a short read about it here, up to the paragraph "So w... | 1,323 | 1,370 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=400)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
collection = GlacierCollection()
collection.fill(glacier, n=3, attributes_to_change=
... | 235 | 379 | 5 |
mass_balance_gradients-6 | mass_balance_gradients-6 | Mass balance gradients (MBG) and their influence on glacier flow
In the intro notebook we touched briefly on the mass balance gradient of a glacier. This is what we are going to take a closer look at now. If the concept of mass balance is completely new to you, have a short read about it here, up to the paragraph "So w... | 6,057 | 6,124 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=400)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
collection = GlacierCollection()
collection.fill(glacier, n=3, attributes_to_change=
... | 1,491 | 1,686 | 6 |
mass_balance_gradients-7 | mass_balance_gradients-7 | Mass balance gradients (MBG) and their influence on glacier flow
In the intro notebook we touched briefly on the mass balance gradient of a glacier. This is what we are going to take a closer look at now. If the concept of mass balance is completely new to you, have a short read about it here, up to the paragraph "So w... | 6,126 | 6,187 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=400)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
collection = GlacierCollection()
collection.fill(glacier, n=3, attributes_to_change=
... | 1,765 | 1,823 | 7 |
mass_balance_gradients-8 | mass_balance_gradients-8 | Mass balance gradients (MBG) and their influence on glacier flow
In the intro notebook we touched briefly on the mass balance gradient of a glacier. This is what we are going to take a closer look at now. If the concept of mass balance is completely new to you, have a short read about it here, up to the paragraph "So w... | 4,221 | 4,259 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=400)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
collection = GlacierCollection()
collection.fill(glacier, n=3, attributes_to_change=
... | 913 | 947 | 8 |
mass_balance_gradients-9 | mass_balance_gradients-9 | Mass balance gradients (MBG) and their influence on glacier flow
In the intro notebook we touched briefly on the mass balance gradient of a glacier. This is what we are going to take a closer look at now. If the concept of mass balance is completely new to you, have a short read about it here, up to the paragraph "So w... | 4,941 | 5,004 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=400)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
collection = GlacierCollection()
collection.fill(glacier, n=3, attributes_to_change=
... | 985 | 1,035 | 9 |
mass_balance_gradients-10 | mass_balance_gradients-10 | Mass balance gradients (MBG) and their influence on glacier flow
In the intro notebook we touched briefly on the mass balance gradient of a glacier. This is what we are going to take a closer look at now. If the concept of mass balance is completely new to you, have a short read about it here, up to the paragraph "So w... | 5,857 | 6,039 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=400)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
collection = GlacierCollection()
collection.fill(glacier, n=3, attributes_to_change=
... | 1,142 | 1,477 | 10 |
mass_balance_gradients-11 | mass_balance_gradients-11 | Mass balance gradients (MBG) and their influence on glacier flow
In the intro notebook we touched briefly on the mass balance gradient of a glacier. This is what we are going to take a closer look at now. If the concept of mass balance is completely new to you, have a short read about it here, up to the paragraph "So w... | 718 | 745 |
from oggm_edu import MassBalance, GlacierBed, Glacier, GlacierCollection
bed = GlacierBed(top=3400, bottom=1500, width=400)
mass_balance = MassBalance(ela=3000, gradient=4)
glacier = Glacier(bed=bed, mass_balance=mass_balance)
collection = GlacierCollection()
collection.fill(glacier, n=3, attributes_to_change=
... | 4 | 77 | 11 |
surging_experiment-0 | surging_experiment-0 | Glacier surging experiments
Goals of this notebook:
Learn how to set up a surging glacier using OGGM-Edu.
Understand and describe the effects of glacier surging.
In this notebook we are going to explore surging glaciers and how we can experiment with them using OGGM-Edu.
What is a glacier surge?
A small percentage o... | 1,459 | 1,575 |
from oggm_edu import SurgingGlacier, Glacier, GlacierBed, MassBalance, GlacierCollection
bed = GlacierBed(altitudes=[3400, 3000, 2500, 1500],
widths=[500, 400, 300, 300])
mass_balance = MassBalance(ela=2900, gradient=4)
bed.plot()
surging_glacier = SurgingGlacier(bed=bed, mass_balance=mass_b... | 707 | 740 | 0 |
surging_experiment-1 | surging_experiment-1 | Glacier surging experiments
Goals of this notebook:
Learn how to set up a surging glacier using OGGM-Edu.
Understand and describe the effects of glacier surging.
In this notebook we are going to explore surging glaciers and how we can experiment with them using OGGM-Edu.
What is a glacier surge?
A small percentage o... | 1,804 | 1,903 |
from oggm_edu import SurgingGlacier, Glacier, GlacierBed, MassBalance, GlacierCollection
bed = GlacierBed(altitudes=[3400, 3000, 2500, 1500],
widths=[500, 400, 300, 300])
mass_balance = MassBalance(ela=2900, gradient=4)
bed.plot()
surging_glacier = SurgingGlacier(bed=bed, mass_balance=mass_b... | 575 | 740 | 1 |
surging_experiment-2 | surging_experiment-2 | Glacier surging experiments
Goals of this notebook:
Learn how to set up a surging glacier using OGGM-Edu.
Understand and describe the effects of glacier surging.
In this notebook we are going to explore surging glaciers and how we can experiment with them using OGGM-Edu.
What is a glacier surge?
A small percentage o... | 771 | 831 |
from oggm_edu import SurgingGlacier, Glacier, GlacierBed, MassBalance, GlacierCollection
bed = GlacierBed(altitudes=[3400, 3000, 2500, 1500],
widths=[500, 400, 300, 300])
mass_balance = MassBalance(ela=2900, gradient=4)
bed.plot()
surging_glacier = SurgingGlacier(bed=bed, mass_balance=mass_b... | 97 | 245 | 2 |
surging_experiment-3 | surging_experiment-3 | Glacier surging experiments
Goals of this notebook:
Learn how to set up a surging glacier using OGGM-Edu.
Understand and describe the effects of glacier surging.
In this notebook we are going to explore surging glaciers and how we can experiment with them using OGGM-Edu.
What is a glacier surge?
A small percentage o... | 887 | 954 |
from oggm_edu import SurgingGlacier, Glacier, GlacierBed, MassBalance, GlacierCollection
bed = GlacierBed(altitudes=[3400, 3000, 2500, 1500],
widths=[500, 400, 300, 300])
mass_balance = MassBalance(ela=2900, gradient=4)
bed.plot()
surging_glacier = SurgingGlacier(bed=bed, mass_balance=mass_b... | 259 | 328 | 3 |
surging_experiment-4 | surging_experiment-4 | Glacier surging experiments
Goals of this notebook:
Learn how to set up a surging glacier using OGGM-Edu.
Understand and describe the effects of glacier surging.
In this notebook we are going to explore surging glaciers and how we can experiment with them using OGGM-Edu.
What is a glacier surge?
A small percentage o... | 1,905 | 2,027 |
from oggm_edu import SurgingGlacier, Glacier, GlacierBed, MassBalance, GlacierCollection
bed = GlacierBed(altitudes=[3400, 3000, 2500, 1500],
widths=[500, 400, 300, 300])
mass_balance = MassBalance(ela=2900, gradient=4)
bed.plot()
surging_glacier = SurgingGlacier(bed=bed, mass_balance=mass_b... | 801 | 1,010 | 4 |
surging_experiment-5 | surging_experiment-5 | Glacier surging experiments
Goals of this notebook:
Learn how to set up a surging glacier using OGGM-Edu.
Understand and describe the effects of glacier surging.
In this notebook we are going to explore surging glaciers and how we can experiment with them using OGGM-Edu.
What is a glacier surge?
A small percentage o... | 716 | 761 |
from oggm_edu import SurgingGlacier, Glacier, GlacierBed, MassBalance, GlacierCollection
bed = GlacierBed(altitudes=[3400, 3000, 2500, 1500],
widths=[500, 400, 300, 300])
mass_balance = MassBalance(ela=2900, gradient=4)
bed.plot()
surging_glacier = SurgingGlacier(bed=bed, mass_balance=mass_b... | 5 | 94 | 5 |
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