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Hessa
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test_dataset_tqa

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1
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
d
DQ_003728
image
question_images/parts_leaf_3844.png
parts_leaf_3844.png
1
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
d
DQ_003369
image
abc_question_images/parts_leaf_13844.png
parts_leaf_13844.png
0.840187
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
d
DD_0110
image
teaching_images/parts_leaf_557.png
This diagram shows the parts of a leaf. The Blade is the broad flat part of the leaf. The Petiole is the stemlike part of the leaf that joins the blade to the stem. The Stipules are two small flaps that grow at the base of the petiole of some plants. A leaf has several veins. Veins carry food and water in a leaf. They also support the blade. The large central vein which extends from the base of the blade to its tip is called the Midrib. Smaller veins connect the midrib to other parts of the blade.
0.828286
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
d
DQ_003806
image
question_images/parts_leaf_6265.png
parts_leaf_6265.png
0.812376
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
d
DQ_003635
image
question_images/parts_leaf_1124.png
parts_leaf_1124.png
0.805817
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
d
DQ_003559
image
question_images/parts_leaf_1105.png
parts_leaf_1105.png
0.799974
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
d
DQ_003663
image
question_images/parts_leaf_3132.png
parts_leaf_3132.png
0.791625
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
d
DQ_003716
image
question_images/parts_leaf_3149.png
parts_leaf_3149.png
0.790033
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
d
DQ_004407
image
question_images/types_leaves_6319.png
types_leaves_6319.png
0.787178
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
d
DQ_003724
image
question_images/parts_leaf_3842.png
parts_leaf_3842.png
0.787178
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
d
T_3234
text
null
Your heart pumps blood around your body. But how does your heart get blood to and from every cell in your body? Your heart is connected to blood vessels such as veins and arteries. Organs that work together form an organ system. Together, your heart, blood, and blood vessels form your cardiovascular system. What other organ systems can you think of?
0.601657
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
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.
0.58436
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
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.
0.576593
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
d
T_1106
text
null
Despite these problems, there is a rich fossil record. How does an organism become fossilized?
0.576194
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
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?
0.573948
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
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.
0.570891
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
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:
0.566834
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
d
T_1698
text
null
How well soil forms and what type of soil forms depends on several different factors, which are described below.
0.561087
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
d
T_2219
text
null
After the blood in the capillaries in the lungs picks up oxygen, it leaves the lungs and travels to the heart. The heart pumps the oxygen-rich blood into arteries, which carry it throughout the body. The blood passes eventually into capillaries that supply body cells.
0.559535
DQ_003730
What is the large vein in middle of the leaf called?
question_images/parts_leaf_3844.png
a. Blade, b. Stem, c. Margin, d. Midrib
d
T_2197
text
null
Blood vessels are long, tube-like organs that consist mainly of muscle, connective, and epithelial tissues. They branch to form a complex network of vessels that run throughout the body. This network transports blood to all the bodys cells.
0.553184
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
DQ_003728
image
question_images/parts_leaf_3844.png
parts_leaf_3844.png
1
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
DQ_003369
image
abc_question_images/parts_leaf_13844.png
parts_leaf_13844.png
0.840187
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
DD_0110
image
teaching_images/parts_leaf_557.png
This diagram shows the parts of a leaf. The Blade is the broad flat part of the leaf. The Petiole is the stemlike part of the leaf that joins the blade to the stem. The Stipules are two small flaps that grow at the base of the petiole of some plants. A leaf has several veins. Veins carry food and water in a leaf. They also support the blade. The large central vein which extends from the base of the blade to its tip is called the Midrib. Smaller veins connect the midrib to other parts of the blade.
0.828286
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
DQ_003806
image
question_images/parts_leaf_6265.png
parts_leaf_6265.png
0.812376
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
DQ_003635
image
question_images/parts_leaf_1124.png
parts_leaf_1124.png
0.805817
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
DQ_003559
image
question_images/parts_leaf_1105.png
parts_leaf_1105.png
0.799974
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
DQ_003663
image
question_images/parts_leaf_3132.png
parts_leaf_3132.png
0.791625
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
DQ_003716
image
question_images/parts_leaf_3149.png
parts_leaf_3149.png
0.790033
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
DQ_004407
image
question_images/types_leaves_6319.png
types_leaves_6319.png
0.787178
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
DQ_003724
image
question_images/parts_leaf_3842.png
parts_leaf_3842.png
0.787178
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
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?
0.635051
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
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.
0.61689
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
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.
0.58408
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
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.
0.574848
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
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.
0.574633
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
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.
0.564885
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
T_0638
text
null
To understand minerals, we must first understand matter. Matter is the substance that physical objects are made of.
0.562454
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
T_4715
text
null
Compare and contrast the basic properties of matter, such as mass and volume.
0.559292
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
T_2385
text
null
Two important concepts associated with the ecosystem are niche and habitat.
0.5574
DQ_003731
What part connects the leaf to the stem.
question_images/parts_leaf_3844.png
a. Blade, b. Petiole, c. Margin, d. Apex
b
T_0691
text
null
Sedimentary rocks form in two ways. Particles may be cemented together. Chemicals may precipitate.
0.556003
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
b
DQ_003728
image
question_images/parts_leaf_3844.png
parts_leaf_3844.png
1
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
b
DQ_003369
image
abc_question_images/parts_leaf_13844.png
parts_leaf_13844.png
0.840187
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
b
DD_0110
image
teaching_images/parts_leaf_557.png
This diagram shows the parts of a leaf. The Blade is the broad flat part of the leaf. The Petiole is the stemlike part of the leaf that joins the blade to the stem. The Stipules are two small flaps that grow at the base of the petiole of some plants. A leaf has several veins. Veins carry food and water in a leaf. They also support the blade. The large central vein which extends from the base of the blade to its tip is called the Midrib. Smaller veins connect the midrib to other parts of the blade.
0.828286
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
b
DQ_003806
image
question_images/parts_leaf_6265.png
parts_leaf_6265.png
0.812376
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
b
DQ_003635
image
question_images/parts_leaf_1124.png
parts_leaf_1124.png
0.805817
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
b
DQ_003559
image
question_images/parts_leaf_1105.png
parts_leaf_1105.png
0.799974
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
b
DQ_003663
image
question_images/parts_leaf_3132.png
parts_leaf_3132.png
0.791625
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
b
DQ_003716
image
question_images/parts_leaf_3149.png
parts_leaf_3149.png
0.790033
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
b
DQ_004407
image
question_images/types_leaves_6319.png
types_leaves_6319.png
0.787178
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
b
DQ_003724
image
question_images/parts_leaf_3842.png
parts_leaf_3842.png
0.787178
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
b
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?
0.718027
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
b
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.
0.682878
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
b
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.
0.665191
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
b
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.
0.664078
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
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.
0.656347
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
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.
0.641699
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
b
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:
0.624439
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
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.
0.623568
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
b
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.
0.615448
DQ_003732
How many parts of a plant are shown?
question_images/parts_leaf_3844.png
a. 8, b. 9, c. 7, d. 6
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
0.61307
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
DQ_003733
image
question_images/parts_leaf_3852.png
parts_leaf_3852.png
1
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
DQ_003370
image
abc_question_images/parts_leaf_13852.png
parts_leaf_13852.png
0.846893
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
DQ_003762
image
question_images/parts_leaf_556.png
parts_leaf_556.png
0.787627
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
DQ_003698
image
question_images/parts_leaf_3139.png
parts_leaf_3139.png
0.784963
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
DQ_003684
image
question_images/parts_leaf_3137.png
parts_leaf_3137.png
0.780505
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
DQ_003363
image
abc_question_images/parts_leaf_13137.png
parts_leaf_13137.png
0.780505
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
DQ_003703
image
question_images/parts_leaf_3140.png
parts_leaf_3140.png
0.768141
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
DQ_003675
image
question_images/parts_leaf_3134.png
parts_leaf_3134.png
0.767382
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
DQ_003372
image
abc_question_images/parts_leaf_13853.png
parts_leaf_13853.png
0.74984
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
DD_0107
image
teaching_images/parts_leaf_3854.png
The diagram shows the main parts of a cross section of a typical plant leaf. The cross section of a typical leaf is divisible into three main parts namely, the Epidermis, Mesophyll, and the Veins. The Epidermis is made of several layers of cells that are sandwiched between two layers. The Epidermis protects the tissues which lie between them and also helps in the process of gaseous exchange. Epidermis is further divisible into two types called, the Upper Epidermis and the Lower Epidermis. Beneath the Epidermis is the Mesophyll where Photosynthesis takes place. Photosynthesis is the process by which plants make their own food like sugars & amino acids. The Veins (surrounded by the Bundle sheath cells) provides the necessary support to the leaf in the transport of water and plant food to other parts of the plant. The Stoma located in the Lower Epidermis is an opening that control the gaseous exchange that occurs between the leaf and the atmosphere during photosynthesis. The gas exchange involves the use of common gas like Carbon Dioxide and Oxygen.
0.74761
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
T_3033
text
null
Sperm ( Figure 1.1), the male reproductive cells, are tiny. In fact, they are the smallest cells in the human body. What do you think a sperm cell looks like? Some people think that it looks like a tadpole. Do you agree?
0.489695
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
T_2469
text
null
Why does a cell have cytoplasm? Cytoplasm has several important functions. These include: suspending cell organelles. pushing against the cell membrane to help the cell keep its shape. providing a site for many of the biochemical reactions of the cell.
0.463958
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
T_2329
text
null
Sperm are tiny cells. In fact, they are the smallest of all human cells. They have a structure that suits them well to perform their function.
0.457908
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
T_3211
text
null
Many disorders of the reproductive system are not sexually transmitted infections. They are not caused by pathogens, so they dont spread from person to person. They develop for other reasons. The disorders are different between males and females. In both genders, the disorders could cause a little discomfort, or they could cause death.
0.456036
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
T_1106
text
null
Despite these problems, there is a rich fossil record. How does an organism become fossilized?
0.451786
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
T_2268
text
null
The sensory division of the peripheral nervous system carries messages from sense organs and internal organs to the central nervous system. For example, it carries messages about images from the eyes to the brain. Once the messages reach the brain, the brain interprets the information.
0.449755
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
T_3788
text
null
Ultrasound has frequencies higher than the human ear can detect (higher than 20,000 hertz). Although we cant hear ultrasound, it is very useful. Uses include echolocation, sonar, and ultrasonography.
0.444803
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
T_3299
text
null
What goes into the cell? Oxygen and glucose are both reactants of cellular respiration. Oxygen enters the body when an organism breathes. Glucose enters the body when an organism eats.
0.440581
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
T_2007
text
null
Annelids have a large coelom. They also have several organ systems. These include a: circulatory system; excretory system; complete digestive system; and nervous system, with a brain and sensory organs.
0.440324
DQ_003733
What is directly underneath the cuticula?
question_images/parts_leaf_3852.png
a. epidermis inferior, b. cloroplasts, c. estoma, d. epidermis superior
d
T_2023
text
null
Chordates have three embryonic cell layers: endoderm, mesoderm, and ectoderm. They also have a segmented body with a complete coelom and bilateral symmetry. In addition, chordates have a complete digestive system, central nervous system, and circulatory system.
0.439201
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
DQ_003733
image
question_images/parts_leaf_3852.png
parts_leaf_3852.png
1
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
DQ_003370
image
abc_question_images/parts_leaf_13852.png
parts_leaf_13852.png
0.846893
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
DQ_003762
image
question_images/parts_leaf_556.png
parts_leaf_556.png
0.787627
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
DQ_003698
image
question_images/parts_leaf_3139.png
parts_leaf_3139.png
0.784963
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
DQ_003684
image
question_images/parts_leaf_3137.png
parts_leaf_3137.png
0.780505
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
DQ_003363
image
abc_question_images/parts_leaf_13137.png
parts_leaf_13137.png
0.780505
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
DQ_003703
image
question_images/parts_leaf_3140.png
parts_leaf_3140.png
0.768141
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
DQ_003675
image
question_images/parts_leaf_3134.png
parts_leaf_3134.png
0.767382
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
DQ_003372
image
abc_question_images/parts_leaf_13853.png
parts_leaf_13853.png
0.74984
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
DD_0107
image
teaching_images/parts_leaf_3854.png
The diagram shows the main parts of a cross section of a typical plant leaf. The cross section of a typical leaf is divisible into three main parts namely, the Epidermis, Mesophyll, and the Veins. The Epidermis is made of several layers of cells that are sandwiched between two layers. The Epidermis protects the tissues which lie between them and also helps in the process of gaseous exchange. Epidermis is further divisible into two types called, the Upper Epidermis and the Lower Epidermis. Beneath the Epidermis is the Mesophyll where Photosynthesis takes place. Photosynthesis is the process by which plants make their own food like sugars & amino acids. The Veins (surrounded by the Bundle sheath cells) provides the necessary support to the leaf in the transport of water and plant food to other parts of the plant. The Stoma located in the Lower Epidermis is an opening that control the gaseous exchange that occurs between the leaf and the atmosphere during photosynthesis. The gas exchange involves the use of common gas like Carbon Dioxide and Oxygen.
0.74761
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
T_0116
text
null
Every organism is different from every other organism. Every organisms genes are different, too.
0.615021
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
T_1106
text
null
Despite these problems, there is a rich fossil record. How does an organism become fossilized?
0.614083
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
T_1447
text
null
Minerals are divided into groups based on chemical composition. Most minerals fit into one of eight mineral groups.
0.591346
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
T_0643
text
null
A mineral is an inorganic substance. It was not made by living organisms. Organic substances contain carbon. Some organic substances are proteins, carbohydrates, and oils. Everything else is inorganic. In a few cases, living organisms make inorganic materials. The calcium carbonate shells made by marine animals are inorganic.
0.589974
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
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.
0.583403
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
T_1467
text
null
Organic substances are the carbon-based compounds made by living creatures and include proteins, carbohydrates, and oils. Inorganic substances have a structure that is not characteristic of living bodies. Coal is made of plant and animal remains. Is it a mineral? Coal is a classified as a sedimentary rock, but is not a mineral.
0.582511
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
T_2746
text
null
Like all organisms, bacteria need energy, and they can acquire this energy through a number of different ways.
0.572978
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
T_2650
text
null
Bacteria are the most diverse organisms on Earth. Thousands of species of bacteria have been discovered. Many more are thought to exist. The known species are classified on the basis of various traits. For example, they may be classified by the shape of their cells. They may also be classified by how they react to a dye called Gram stain.
0.564931
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
T_2471
text
null
Eukaryotic cells contain a nucleus and several other types of organelles. These structures carry out many vital cell functions.
0.564333
DQ_003734
What is any of a variety of tough but flexible, non-mineral outer coverings of an organism?
question_images/parts_leaf_3852.png
a. Cuticula, b. Epidermis Inferior, c. Estoma, d. Epidermis Superior
a
T_2676
text
null
For a long time, scientists classified fungi as members of the Plant Kingdom. Fungi share several obvious traits with plants. For example, both fungi and plants lack the ability to move. Both grow in soil, and both have cell walls. Some fungi even look like plants.
0.562082