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DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | b | DQ_003464 | image | abc_question_images/types_leaves_14387.png | types_leaves_14387.png | 1 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | b | DQ_004094 | image | question_images/types_leaves_4387.png | types_leaves_4387.png | 0.882147 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | b | DQ_003471 | image | abc_question_images/types_leaves_14402.png | types_leaves_14402.png | 0.833613 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | b | DQ_003504 | image | abc_question_images/types_leaves_14726.png | types_leaves_14726.png | 0.827302 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | b | DQ_004231 | image | question_images/types_leaves_4507.png | types_leaves_4507.png | 0.815819 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | b | DQ_003468 | image | abc_question_images/types_leaves_14400.png | types_leaves_14400.png | 0.810795 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | b | DQ_003495 | image | abc_question_images/types_leaves_14708.png | types_leaves_14708.png | 0.802123 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | b | DQ_004045 | image | question_images/types_leaves_1020.png | types_leaves_1020.png | 0.800308 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | b | DQ_003474 | image | abc_question_images/types_leaves_14407.png | types_leaves_14407.png | 0.795326 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | b | DQ_003493 | image | abc_question_images/types_leaves_14707.png | types_leaves_14707.png | 0.789823 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | b | 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: | 0.562874 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | 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. | 0.547965 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | b | T_1106 | text | null | Despite these problems, there is a rich fossil record. How does an organism become fossilized? | 0.541343 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | b | T_0777 | text | null | Plates move apart at divergent plate boundaries. This can occur in the oceans or on land. | 0.540026 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | b | T_1698 | text | null | How well soil forms and what type of soil forms depends on several different factors, which are described below. | 0.537627 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | 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? | 0.533677 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | 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 | 0.53118 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | 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. | 0.528479 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | b | T_3801 | text | null | Although all electromagnetic waves travel at the same speed, they may differ in their wavelength and frequency. | 0.528141 |
DQ_003465 | Which image represents an oblique leaf? | abc_question_images/types_leaves_14387.png | a. X, b. C, c. J, d. L | b | T_4893 | text | null | A given kind of matter has the same chemical makeup and the same chemical properties regardless of its state. Thats because state of matter is a physical property. As a result, when matter changes state, it doesnt become a different kind of substance. For example, water is still water whether it exists as ice, liquid water, or water vapor. | 0.52735 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | b | DQ_003466 | image | abc_question_images/types_leaves_14390.png | types_leaves_14390.png | 1 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | b | DQ_004104 | image | question_images/types_leaves_4390.png | types_leaves_4390.png | 0.861493 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | b | DQ_003474 | image | abc_question_images/types_leaves_14407.png | types_leaves_14407.png | 0.751507 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | b | DQ_004431 | image | question_images/types_leaves_960.png | types_leaves_960.png | 0.749044 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | b | DQ_003512 | image | abc_question_images/types_leaves_14744.png | types_leaves_14744.png | 0.741567 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | b | DQ_003468 | image | abc_question_images/types_leaves_14400.png | types_leaves_14400.png | 0.738521 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | b | DQ_004092 | image | question_images/types_leaves_1109.png | types_leaves_1109.png | 0.734595 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | b | DQ_003471 | image | abc_question_images/types_leaves_14402.png | types_leaves_14402.png | 0.732788 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | b | DQ_004135 | image | question_images/types_leaves_4402.png | types_leaves_4402.png | 0.732029 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | b | DQ_004400 | image | question_images/types_leaves_6316.png | types_leaves_6316.png | 0.726786 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | 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. | 0.596311 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | b | T_1698 | text | null | How well soil forms and what type of soil forms depends on several different factors, which are described below. | 0.576655 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | 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. | 0.575423 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | 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 | 0.571751 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | 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. | 0.567333 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | 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. | 0.566927 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | b | T_1797 | text | null | The two types of air pollutants are primary pollutants, which enter the atmosphere directly, and secondary pollutants, which form from a chemical reaction. | 0.561208 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | b | 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? | 0.557074 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | b | T_4202 | text | null | Carbon is a very common ingredient of matter because it can combine with itself and with many other elements. It can form a great diversity of compounds, ranging in size from just a few atoms to thousands of atoms. There are millions of known carbon compounds, and carbon is the only element that can form so many different compounds. | 0.551802 |
DQ_003466 | Identify the compound leaf in this picture | abc_question_images/types_leaves_14390.png | a. U, b. E, c. R, d. K | b | T_3065 | text | null | Many insects are considered to be pests by humans. However, insects are also very important for numerous reasons. | 0.551281 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | DQ_003466 | image | abc_question_images/types_leaves_14390.png | types_leaves_14390.png | 1 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | DQ_004104 | image | question_images/types_leaves_4390.png | types_leaves_4390.png | 0.861493 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | DQ_003474 | image | abc_question_images/types_leaves_14407.png | types_leaves_14407.png | 0.751507 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | DQ_004431 | image | question_images/types_leaves_960.png | types_leaves_960.png | 0.749044 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | DQ_003512 | image | abc_question_images/types_leaves_14744.png | types_leaves_14744.png | 0.741567 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | DQ_003468 | image | abc_question_images/types_leaves_14400.png | types_leaves_14400.png | 0.738521 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | DQ_004092 | image | question_images/types_leaves_1109.png | types_leaves_1109.png | 0.734595 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | DQ_003471 | image | abc_question_images/types_leaves_14402.png | types_leaves_14402.png | 0.732788 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | DQ_004135 | image | question_images/types_leaves_4402.png | types_leaves_4402.png | 0.732029 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | DQ_004400 | image | question_images/types_leaves_6316.png | types_leaves_6316.png | 0.726786 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | T_1447 | text | null | Minerals are divided into groups based on chemical composition. Most minerals fit into one of eight mineral groups. | 0.596574 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | T_4715 | text | null | Compare and contrast the basic properties of matter, such as mass and volume. | 0.595494 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | T_4202 | text | null | Carbon is a very common ingredient of matter because it can combine with itself and with many other elements. It can form a great diversity of compounds, ranging in size from just a few atoms to thousands of atoms. There are millions of known carbon compounds, and carbon is the only element that can form so many different compounds. | 0.595348 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | T_4018 | text | null | Water (H2 O) is an example of a chemical compound. Water molecules always consist of two atoms of hydrogen and one atom of oxygen. Like water, all other chemical compounds consist of a fixed ratio of elements. It doesnt matter how much or how little of a compound there is. It always has the same composition. | 0.592997 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | T_1797 | text | null | The two types of air pollutants are primary pollutants, which enter the atmosphere directly, and secondary pollutants, which form from a chemical reaction. | 0.58862 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | 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. | 0.585974 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | T_2237 | text | null | All known matter can be divided into a little more than 100 different substances called elements. | 0.581588 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | T_3941 | text | null | Why do different states of matter have different properties? Its because of differences in energy at the level of atoms and molecules, the tiny particles that make up matter. | 0.577613 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | T_4893 | text | null | A given kind of matter has the same chemical makeup and the same chemical properties regardless of its state. Thats because state of matter is a physical property. As a result, when matter changes state, it doesnt become a different kind of substance. For example, water is still water whether it exists as ice, liquid water, or water vapor. | 0.576701 |
DQ_003467 | Which label stands for a compound arrangement? | abc_question_images/types_leaves_14390.png | a. Y, b. D, c. J, d. W | a | T_4284 | text | null | A covalent bond is the force of attraction that holds together two atoms that share a pair of valence electrons. The shared electrons are attracted to the nuclei of both atoms. This forms a molecule consisting of two or more atoms. Covalent bonds form only between atoms of nonmetals. | 0.571803 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | c | DQ_003468 | image | abc_question_images/types_leaves_14400.png | types_leaves_14400.png | 1 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | c | DQ_004130 | image | question_images/types_leaves_4400.png | types_leaves_4400.png | 0.910917 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | c | DQ_003495 | image | abc_question_images/types_leaves_14708.png | types_leaves_14708.png | 0.862656 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | c | DQ_003488 | image | abc_question_images/types_leaves_14496.png | types_leaves_14496.png | 0.854869 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | c | DQ_003504 | image | abc_question_images/types_leaves_14726.png | types_leaves_14726.png | 0.846611 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | c | DQ_004423 | image | question_images/types_leaves_958.png | types_leaves_958.png | 0.834499 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | c | DQ_004162 | image | question_images/types_leaves_4414.png | types_leaves_4414.png | 0.832576 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | c | DQ_003508 | image | abc_question_images/types_leaves_14728.png | types_leaves_14728.png | 0.831641 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | c | DQ_003471 | image | abc_question_images/types_leaves_14402.png | types_leaves_14402.png | 0.830007 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | c | DQ_004127 | image | question_images/types_leaves_4397.png | types_leaves_4397.png | 0.826995 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | 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. | 0.529701 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | 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. | 0.521835 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | 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? | 0.518895 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | 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. | 0.512671 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | c | 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: | 0.511571 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | c | T_1106 | text | null | Despite these problems, there is a rich fossil record. How does an organism become fossilized? | 0.508265 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | 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. | 0.506857 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | c | T_1698 | text | null | How well soil forms and what type of soil forms depends on several different factors, which are described below. | 0.500618 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | c | T_2971 | text | null | Gymnosperms have seeds, but they do not produce fruit. Instead, the seeds of gymnosperms are usually found in cones. There are four phyla of gymnosperms: 1. Conifers 2. Cycads 3. Ginkgoes 4. Gnetophytes | 0.491845 |
DQ_003468 | Which letter represents the Toothed type of leaf? | abc_question_images/types_leaves_14400.png | a. W, b. U, c. X, d. V | c | T_0987 | text | null | Now that you know what chemical weathering is, can you think of some other ways chemical weathering might occur? Chemical weathering can also be contributed to by plants and animals. As plant roots take in soluble ions as nutrients, certain elements are exchanged. Plant roots and bacterial decay use carbon dioxide in the process of respiration. | 0.491622 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | c | DQ_003468 | image | abc_question_images/types_leaves_14400.png | types_leaves_14400.png | 1 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | c | DQ_004130 | image | question_images/types_leaves_4400.png | types_leaves_4400.png | 0.910917 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | c | DQ_003495 | image | abc_question_images/types_leaves_14708.png | types_leaves_14708.png | 0.862656 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | c | DQ_003488 | image | abc_question_images/types_leaves_14496.png | types_leaves_14496.png | 0.854869 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | c | DQ_003504 | image | abc_question_images/types_leaves_14726.png | types_leaves_14726.png | 0.846611 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | c | DQ_004423 | image | question_images/types_leaves_958.png | types_leaves_958.png | 0.834499 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | c | DQ_004162 | image | question_images/types_leaves_4414.png | types_leaves_4414.png | 0.832576 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | c | DQ_003508 | image | abc_question_images/types_leaves_14728.png | types_leaves_14728.png | 0.831641 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | c | DQ_003471 | image | abc_question_images/types_leaves_14402.png | types_leaves_14402.png | 0.830007 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | c | DQ_004127 | image | question_images/types_leaves_4397.png | types_leaves_4397.png | 0.826995 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | 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. | 0.62424 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | 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. | 0.623773 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | 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. | 0.620333 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | 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? | 0.618255 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | c | T_1698 | text | null | How well soil forms and what type of soil forms depends on several different factors, which are described below. | 0.618148 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | c | T_1106 | text | null | Despite these problems, there is a rich fossil record. How does an organism become fossilized? | 0.611459 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | c | 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? | 0.599681 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | c | T_2237 | text | null | All known matter can be divided into a little more than 100 different substances called elements. | 0.59484 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | c | T_1447 | text | null | Minerals are divided into groups based on chemical composition. Most minerals fit into one of eight mineral groups. | 0.594496 |
DQ_003469 | Which of the following is a dissected leaf? | abc_question_images/types_leaves_14400.png | a. Y, b. V, c. W, d. X | 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. | 0.590946 |
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