Datasets:
Hessa
/
test_dataset_tqa

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1
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
DQ_003545
image
question_images/parts_leaf_1094.png
parts_leaf_1094.png
1
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
DQ_003331
image
abc_question_images/parts_leaf_11094.png
parts_leaf_11094.png
0.810355
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
DQ_004250
image
question_images/types_leaves_4527.png
types_leaves_4527.png
0.770161
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
DQ_003624
image
question_images/parts_leaf_1122.png
parts_leaf_1122.png
0.75173
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
DQ_003635
image
question_images/parts_leaf_1124.png
parts_leaf_1124.png
0.744734
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
DQ_004339
image
question_images/types_leaves_4748.png
types_leaves_4748.png
0.740414
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
DQ_003585
image
question_images/parts_leaf_1114.png
parts_leaf_1114.png
0.727461
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
DQ_003922
image
question_images/parts_plant_3225.png
parts_plant_3225.png
0.724789
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
DQ_003788
image
question_images/parts_leaf_6262.png
parts_leaf_6262.png
0.721979
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
DQ_003663
image
question_images/parts_leaf_3132.png
parts_leaf_3132.png
0.720419
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
T_1927
text
null
An organ is a structure composed of two or more types of tissues that work together to do a specific task. Most modern plants have several organs that help them survive and reproduce in a variety of habitats. Major organs of most plants include roots, stems, and leaves. These and other plant organs generally contain all three major tissue types.
0.752102
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
T_1950
text
null
The most basic division of modern plants is between nonvascular and vascular plants. Vascular plants are further divided into those that reproduce without seeds and those that reproduce with seeds. Seed plants, in turn, are divided into those that produce naked seeds in cones and those that produce seeds in the ovaries of flowers.
0.710429
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
T_1598
text
null
Plants and animals depend on water to live. They also play a role in the water cycle. Plants take up water from the soil and release large amounts of water vapor into the air through their leaves (Figure 1.3), a process known as transpiration.
0.705123
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
T_3434
text
null
Water also moves through the living organisms in an ecosystem. Plants soak up large amounts of water through their roots. The water then moves up the plant and evaporates from the leaves in a process called transpiration. The process of transpiration, like evaporation, returns water back into the atmosphere.
0.690676
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
T_3385
text
null
Plants seem to grow wherever they can. How? Plants cant move on their own. So how does a plant start growing in a new area?
0.685214
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
T_1925
text
null
Ground tissue makes up much of the inside of a plant. The cells of ground tissue carry out basic metabolic functions and other biochemical reactions. Ground tissue may also store food or water.
0.683184
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
T_1947
text
null
Some seed plants evolved another major adaptation. This was the formation of seeds in flowers. Flowers are plant structures that contain male and/or female reproductive organs.
0.680372
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
T_2956
text
null
Scientists used to think that fungi were members of the plant kingdom. They thought this because fungi had several similarities to plants. For example: Fungi and plants have similar structures. Plants and fungi live in the same kinds of habitats, such as growing in soil. Plants and fungi cells both have a cell wall, which animals do not have.
0.657049
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
T_1942
text
null
With all these adaptations, its easy to see why vascular plants were very successful. They spread quickly and widely on land. As vascular plants spread, many nonvascular plants went extinct. Vascular plants became and remain the dominant land plants on Earth.
0.656879
DQ_003545
In the diagram identify the organ that hold the plant upright.
question_images/parts_leaf_1094.png
a. Rachis, b. Petiolule., c. Stem., d. Petiole
c
T_2385
text
null
Two important concepts associated with the ecosystem are niche and habitat.
0.654525
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
DQ_003545
image
question_images/parts_leaf_1094.png
parts_leaf_1094.png
1
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
DQ_003331
image
abc_question_images/parts_leaf_11094.png
parts_leaf_11094.png
0.810355
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
DQ_004250
image
question_images/types_leaves_4527.png
types_leaves_4527.png
0.770161
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
DQ_003624
image
question_images/parts_leaf_1122.png
parts_leaf_1122.png
0.75173
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
DQ_003635
image
question_images/parts_leaf_1124.png
parts_leaf_1124.png
0.744734
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
DQ_004339
image
question_images/types_leaves_4748.png
types_leaves_4748.png
0.740414
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
DQ_003585
image
question_images/parts_leaf_1114.png
parts_leaf_1114.png
0.727461
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
DQ_003922
image
question_images/parts_plant_3225.png
parts_plant_3225.png
0.724789
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
DQ_003788
image
question_images/parts_leaf_6262.png
parts_leaf_6262.png
0.721979
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
DQ_003663
image
question_images/parts_leaf_3132.png
parts_leaf_3132.png
0.720419
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
T_3385
text
null
Plants seem to grow wherever they can. How? Plants cant move on their own. So how does a plant start growing in a new area?
0.637173
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
T_1950
text
null
The most basic division of modern plants is between nonvascular and vascular plants. Vascular plants are further divided into those that reproduce without seeds and those that reproduce with seeds. Seed plants, in turn, are divided into those that produce naked seeds in cones and those that produce seeds in the ovaries of flowers.
0.597014
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
T_1598
text
null
Plants and animals depend on water to live. They also play a role in the water cycle. Plants take up water from the soil and release large amounts of water vapor into the air through their leaves (Figure 1.3), a process known as transpiration.
0.572123
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
T_1932
text
null
All plants have a life cycle that includes alternation of generations. You can see a general plant life cycle in Figure MEDIA Click image to the left or use the URL below. URL:
0.568524
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
T_1958
text
null
Plants live just about everywhere on Earth. To live in so many different habitats, they have evolved adaptations that allow them to survive and reproduce under a diversity of conditions. Some plants have evolved special adaptations that let them live in extreme environments.
0.565409
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
T_1927
text
null
An organ is a structure composed of two or more types of tissues that work together to do a specific task. Most modern plants have several organs that help them survive and reproduce in a variety of habitats. Major organs of most plants include roots, stems, and leaves. These and other plant organs generally contain all three major tissue types.
0.562151
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
T_1947
text
null
Some seed plants evolved another major adaptation. This was the formation of seeds in flowers. Flowers are plant structures that contain male and/or female reproductive organs.
0.562117
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
T_3434
text
null
Water also moves through the living organisms in an ecosystem. Plants soak up large amounts of water through their roots. The water then moves up the plant and evaporates from the leaves in a process called transpiration. The process of transpiration, like evaporation, returns water back into the atmosphere.
0.560923
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
T_1312
text
null
In photosynthesis, plants use CO2 and create O2 . Photosynthesis is responsible for nearly all of the oxygen currently found in the atmosphere. The chemical reaction for photosynthesis is: 6CO2 + 6H2 O + solar energy C6 H12 O6 (sugar) + 6O2
0.546817
DQ_003546
How many parts does the plant below has?
question_images/parts_leaf_1094.png
a. 2, b. 7, c. 6, d. 5
c
T_2956
text
null
Scientists used to think that fungi were members of the plant kingdom. They thought this because fungi had several similarities to plants. For example: Fungi and plants have similar structures. Plants and fungi live in the same kinds of habitats, such as growing in soil. Plants and fungi cells both have a cell wall, which animals do not have.
0.543658
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
DQ_003545
image
question_images/parts_leaf_1094.png
parts_leaf_1094.png
1
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
DQ_003331
image
abc_question_images/parts_leaf_11094.png
parts_leaf_11094.png
0.810355
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
DQ_004250
image
question_images/types_leaves_4527.png
types_leaves_4527.png
0.770161
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
DQ_003624
image
question_images/parts_leaf_1122.png
parts_leaf_1122.png
0.75173
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
DQ_003635
image
question_images/parts_leaf_1124.png
parts_leaf_1124.png
0.744734
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
DQ_004339
image
question_images/types_leaves_4748.png
types_leaves_4748.png
0.740414
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
DQ_003585
image
question_images/parts_leaf_1114.png
parts_leaf_1114.png
0.727461
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
DQ_003922
image
question_images/parts_plant_3225.png
parts_plant_3225.png
0.724789
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
DQ_003788
image
question_images/parts_leaf_6262.png
parts_leaf_6262.png
0.721979
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
DQ_003663
image
question_images/parts_leaf_3132.png
parts_leaf_3132.png
0.720419
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
T_3385
text
null
Plants seem to grow wherever they can. How? Plants cant move on their own. So how does a plant start growing in a new area?
0.581831
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
T_1598
text
null
Plants and animals depend on water to live. They also play a role in the water cycle. Plants take up water from the soil and release large amounts of water vapor into the air through their leaves (Figure 1.3), a process known as transpiration.
0.539099
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
T_3434
text
null
Water also moves through the living organisms in an ecosystem. Plants soak up large amounts of water through their roots. The water then moves up the plant and evaporates from the leaves in a process called transpiration. The process of transpiration, like evaporation, returns water back into the atmosphere.
0.525208
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
T_1312
text
null
In photosynthesis, plants use CO2 and create O2 . Photosynthesis is responsible for nearly all of the oxygen currently found in the atmosphere. The chemical reaction for photosynthesis is: 6CO2 + 6H2 O + solar energy C6 H12 O6 (sugar) + 6O2
0.517365
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
T_1947
text
null
Some seed plants evolved another major adaptation. This was the formation of seeds in flowers. Flowers are plant structures that contain male and/or female reproductive organs.
0.512724
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
T_2527
text
null
Budding occurs when a parent cell forms a bubble-like bud. The bud stays attached to the parent while it grows and develops. It breaks away from the parent only after it is fully formed. Yeasts can reproduce this way. You can see two yeast cells budding in Figure 5.11.
0.508671
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
T_1950
text
null
The most basic division of modern plants is between nonvascular and vascular plants. Vascular plants are further divided into those that reproduce without seeds and those that reproduce with seeds. Seed plants, in turn, are divided into those that produce naked seeds in cones and those that produce seeds in the ovaries of flowers.
0.507462
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
T_2956
text
null
Scientists used to think that fungi were members of the plant kingdom. They thought this because fungi had several similarities to plants. For example: Fungi and plants have similar structures. Plants and fungi live in the same kinds of habitats, such as growing in soil. Plants and fungi cells both have a cell wall, which animals do not have.
0.502047
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
T_1106
text
null
Despite these problems, there is a rich fossil record. How does an organism become fossilized?
0.498391
DQ_003547
How is the leaf attached to the stem?
question_images/parts_leaf_1094.png
a. Bachis, b. leaflet, c. Stem, d. Axillary bud.
d
T_2534
text
null
Both types of reproduction have certain advantages.
0.494023
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
DQ_003545
image
question_images/parts_leaf_1094.png
parts_leaf_1094.png
1
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
DQ_003331
image
abc_question_images/parts_leaf_11094.png
parts_leaf_11094.png
0.810355
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
DQ_004250
image
question_images/types_leaves_4527.png
types_leaves_4527.png
0.770161
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
DQ_003624
image
question_images/parts_leaf_1122.png
parts_leaf_1122.png
0.75173
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
DQ_003635
image
question_images/parts_leaf_1124.png
parts_leaf_1124.png
0.744734
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
DQ_004339
image
question_images/types_leaves_4748.png
types_leaves_4748.png
0.740414
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
DQ_003585
image
question_images/parts_leaf_1114.png
parts_leaf_1114.png
0.727461
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
DQ_003922
image
question_images/parts_plant_3225.png
parts_plant_3225.png
0.724789
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
DQ_003788
image
question_images/parts_leaf_6262.png
parts_leaf_6262.png
0.721979
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
DQ_003663
image
question_images/parts_leaf_3132.png
parts_leaf_3132.png
0.720419
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
T_3385
text
null
Plants seem to grow wherever they can. How? Plants cant move on their own. So how does a plant start growing in a new area?
0.580085
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
T_3434
text
null
Water also moves through the living organisms in an ecosystem. Plants soak up large amounts of water through their roots. The water then moves up the plant and evaporates from the leaves in a process called transpiration. The process of transpiration, like evaporation, returns water back into the atmosphere.
0.536315
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
T_1598
text
null
Plants and animals depend on water to live. They also play a role in the water cycle. Plants take up water from the soil and release large amounts of water vapor into the air through their leaves (Figure 1.3), a process known as transpiration.
0.535285
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
T_2527
text
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Budding occurs when a parent cell forms a bubble-like bud. The bud stays attached to the parent while it grows and develops. It breaks away from the parent only after it is fully formed. Yeasts can reproduce this way. You can see two yeast cells budding in Figure 5.11.
0.530699
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
T_2956
text
null
Scientists used to think that fungi were members of the plant kingdom. They thought this because fungi had several similarities to plants. For example: Fungi and plants have similar structures. Plants and fungi live in the same kinds of habitats, such as growing in soil. Plants and fungi cells both have a cell wall, which animals do not have.
0.527986
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
T_1947
text
null
Some seed plants evolved another major adaptation. This was the formation of seeds in flowers. Flowers are plant structures that contain male and/or female reproductive organs.
0.525539
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
T_1312
text
null
In photosynthesis, plants use CO2 and create O2 . Photosynthesis is responsible for nearly all of the oxygen currently found in the atmosphere. The chemical reaction for photosynthesis is: 6CO2 + 6H2 O + solar energy C6 H12 O6 (sugar) + 6O2
0.515079
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
T_1954
text
null
Instead of fleeing, a plants primary way of responding is to change how it is growing. One way is by tropisms.
0.508969
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
T_1805
text
null
Some fossils form when their remains are compressed by high pressure, leaving behind a dark imprint. Compression is most common for fossils of leaves and ferns, but can occur with other organisms. Click image to the left or use the URL below. URL: Click image to the left or use the URL below. URL:
0.508787
DQ_003548
This is the stalk that joins a leaf to a stem
question_images/parts_leaf_1094.png
a. Leaflet, b. Leaf, c. Axillary bud, d. Petiole
d
T_1950
text
null
The most basic division of modern plants is between nonvascular and vascular plants. Vascular plants are further divided into those that reproduce without seeds and those that reproduce with seeds. Seed plants, in turn, are divided into those that produce naked seeds in cones and those that produce seeds in the ovaries of flowers.
0.506729
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
DQ_003549
image
question_images/parts_leaf_1095.png
parts_leaf_1095.png
1
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
DQ_003389
image
abc_question_images/parts_leaf_16267.png
parts_leaf_16267.png
0.876377
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
DQ_003352
image
abc_question_images/parts_leaf_13113.png
parts_leaf_13113.png
0.870449
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
DQ_003422
image
abc_question_images/parts_plant_13221.png
parts_plant_13221.png
0.851294
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
DQ_003824
image
question_images/parts_leaf_6269.png
parts_leaf_6269.png
0.800098
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
DQ_003707
image
question_images/parts_leaf_3144.png
parts_leaf_3144.png
0.767195
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
DQ_003965
image
question_images/parts_plant_3791.png
parts_plant_3791.png
0.758042
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
DQ_003955
image
question_images/parts_plant_3789.png
parts_plant_3789.png
0.755937
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
DQ_003913
image
question_images/parts_plant_3221.png
parts_plant_3221.png
0.752935
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
DQ_003818
image
question_images/parts_leaf_6267.png
parts_leaf_6267.png
0.752114
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
T_1312
text
null
In photosynthesis, plants use CO2 and create O2 . Photosynthesis is responsible for nearly all of the oxygen currently found in the atmosphere. The chemical reaction for photosynthesis is: 6CO2 + 6H2 O + solar energy C6 H12 O6 (sugar) + 6O2
0.788086
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
T_0960
text
null
Through photosynthesis, the inorganic carbon in carbon dioxide plus water and energy from sunlight is transformed into organic carbon (food) with oxygen given off as a waste product. The chemical equation for photosynthesis is:
0.770029
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
T_3261
text
null
Even though plants and animals are both eukaryotes, plant cells differ in some ways from animal cells ( Figure organelles of photosynthesis. Photosynthesis converts the suns solar energy into chemical energy. This chemical energy, which is the carbohydrate glucose, serves as "food" for the plant.
0.765836
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
T_2644
text
null
Like all living things, prokaryotes need energy and carbon. They meet these needs in a variety of ways and in a range of habitats.
0.737362
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
T_2746
text
null
Like all organisms, bacteria need energy, and they can acquire this energy through a number of different ways.
0.735724
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
T_2508
text
null
Cellular respiration and photosynthesis are like two sides of the same coin. This is clear from the diagram in Figure needed for photosynthesis. Together, the two processes store and release energy in virtually all living things.
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DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
T_1598
text
null
Plants and animals depend on water to live. They also play a role in the water cycle. Plants take up water from the soil and release large amounts of water vapor into the air through their leaves (Figure 1.3), a process known as transpiration.
0.734861
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
T_3434
text
null
Water also moves through the living organisms in an ecosystem. Plants soak up large amounts of water through their roots. The water then moves up the plant and evaporates from the leaves in a process called transpiration. The process of transpiration, like evaporation, returns water back into the atmosphere.
0.727134
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
T_1927
text
null
An organ is a structure composed of two or more types of tissues that work together to do a specific task. Most modern plants have several organs that help them survive and reproduce in a variety of habitats. Major organs of most plants include roots, stems, and leaves. These and other plant organs generally contain all three major tissue types.
0.726958
DQ_003549
Identify the plant organ responsible for collecting sunlight and making food by photosynthesis.
question_images/parts_leaf_1095.png
a. a, b. d, c. c, d. b
b
T_3141
text
null
The second stage of photosynthesis is the production of glucose from carbon dioxide. This process occurs in a continuous cycle, named after its discover, Melvin Calvin. The Calvin cycle uses CO2 and the energy temporarily stored in ATP and NADPH to make the sugar glucose.
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