questionID
stringlengths 9
10
| question_text
stringlengths 5
324
| question_image
stringclasses 660
values | answer_choices
stringlengths 17
476
| correct_answer
stringclasses 7
values | result_id
stringlengths 6
21
| result_type
stringclasses 2
values | result_imagePath
stringlengths 28
76
⌀ | content
stringlengths 10
1.69k
| cosin_sim_score
float64 0.15
1
|
|---|---|---|---|---|---|---|---|---|---|
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | DQ_003684 | image | question_images/parts_leaf_3137.png | parts_leaf_3137.png | 1 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | DQ_003363 | image | abc_question_images/parts_leaf_13137.png | parts_leaf_13137.png | 1 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | DQ_003698 | image | question_images/parts_leaf_3139.png | parts_leaf_3139.png | 0.860806 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | DQ_003337 | image | abc_question_images/parts_leaf_11117.png | parts_leaf_11117.png | 0.857782 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | DQ_003703 | image | question_images/parts_leaf_3140.png | parts_leaf_3140.png | 0.851087 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | DQ_003601 | image | question_images/parts_leaf_1117.png | parts_leaf_1117.png | 0.846696 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | DQ_003361 | image | abc_question_images/parts_leaf_13135.png | parts_leaf_13135.png | 0.839473 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | DQ_003372 | image | abc_question_images/parts_leaf_13853.png | parts_leaf_13853.png | 0.835819 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | DQ_003762 | image | question_images/parts_leaf_556.png | parts_leaf_556.png | 0.831379 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | DQ_003370 | image | abc_question_images/parts_leaf_13852.png | parts_leaf_13852.png | 0.813753 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | 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. | 0.716696 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | 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? | 0.704619 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | 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. | 0.68849 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | 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. | 0.677765 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | 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. | 0.666368 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | 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. | 0.656942 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | 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 | 0.655199 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | 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. | 0.649841 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | a | 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. | 0.647756 |
DQ_003685 | What part of the leaf carries nutrients throughout the plant? | question_images/parts_leaf_3137.png | a. vein, b. stomata, c. cuticle, d. epidermis | 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. | 0.647659 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | b | DQ_003684 | image | question_images/parts_leaf_3137.png | parts_leaf_3137.png | 1 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | b | DQ_003363 | image | abc_question_images/parts_leaf_13137.png | parts_leaf_13137.png | 1 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | b | DQ_003698 | image | question_images/parts_leaf_3139.png | parts_leaf_3139.png | 0.860806 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | b | DQ_003337 | image | abc_question_images/parts_leaf_11117.png | parts_leaf_11117.png | 0.857782 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | b | DQ_003703 | image | question_images/parts_leaf_3140.png | parts_leaf_3140.png | 0.851087 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | b | DQ_003601 | image | question_images/parts_leaf_1117.png | parts_leaf_1117.png | 0.846696 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | b | DQ_003361 | image | abc_question_images/parts_leaf_13135.png | parts_leaf_13135.png | 0.839473 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | b | DQ_003372 | image | abc_question_images/parts_leaf_13853.png | parts_leaf_13853.png | 0.835819 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | b | DQ_003762 | image | question_images/parts_leaf_556.png | parts_leaf_556.png | 0.831379 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | b | DQ_003370 | image | abc_question_images/parts_leaf_13852.png | parts_leaf_13852.png | 0.813753 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | 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. | 0.629462 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | b | T_1698 | text | null | How well soil forms and what type of soil forms depends on several different factors, which are described below. | 0.620989 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | 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. | 0.616434 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | b | T_1106 | text | null | Despite these problems, there is a rich fossil record. How does an organism become fossilized? | 0.609345 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | 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? | 0.605812 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | 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. | 0.603295 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | 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 | 0.596277 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | b | 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. | 0.593668 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | b | T_0638 | text | null | To understand minerals, we must first understand matter. Matter is the substance that physical objects are made of. | 0.59275 |
DQ_003686 | What is the leaf's surface called? | question_images/parts_leaf_3137.png | a. Vein, b. Cuticle, c. Palisade Mesophyll, d. Epidermis | b | T_1447 | text | null | Minerals are divided into groups based on chemical composition. Most minerals fit into one of eight mineral groups. | 0.592038 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | DQ_003684 | image | question_images/parts_leaf_3137.png | parts_leaf_3137.png | 1 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | DQ_003363 | image | abc_question_images/parts_leaf_13137.png | parts_leaf_13137.png | 1 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | DQ_003698 | image | question_images/parts_leaf_3139.png | parts_leaf_3139.png | 0.860806 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | DQ_003337 | image | abc_question_images/parts_leaf_11117.png | parts_leaf_11117.png | 0.857782 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | DQ_003703 | image | question_images/parts_leaf_3140.png | parts_leaf_3140.png | 0.851087 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | DQ_003601 | image | question_images/parts_leaf_1117.png | parts_leaf_1117.png | 0.846696 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | DQ_003361 | image | abc_question_images/parts_leaf_13135.png | parts_leaf_13135.png | 0.839473 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | DQ_003372 | image | abc_question_images/parts_leaf_13853.png | parts_leaf_13853.png | 0.835819 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | DQ_003762 | image | question_images/parts_leaf_556.png | parts_leaf_556.png | 0.831379 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | DQ_003370 | image | abc_question_images/parts_leaf_13852.png | parts_leaf_13852.png | 0.813753 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | T_2134 | text | null | Fingernails and toenails are made of specialized cells that grow out of the epidermis. They too are filled with keratin. The keratin makes them tough and hard. Their job is to protect the ends of the fingers and toes. They also make it easier to feel things with the sensitive fingertips by acting as a counterforce when things are handled. | 0.600698 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | T_3201 | text | null | Along with the skin, the integumentary system includes the nails and hair. Both the nails and hair contain the tough protein, keratin. The keratin forms fibers, which makes your nails and hair tough and strong. Keratin is similar in toughness to chitin, the carbohydrate found in the exoskeleton of arthropods. | 0.600375 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | T_0541 | text | null | The three outer layers of the Sun are its atmosphere. | 0.545203 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | T_0726 | text | null | Nuclear energy is produced by splitting the nucleus of an atom. This releases a huge amount of energy. | 0.537996 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | T_1698 | text | null | How well soil forms and what type of soil forms depends on several different factors, which are described below. | 0.537212 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | T_0751 | text | null | Crust, mantle, and core differ from each other in chemical composition. Its understandable that scientists know the most about the crust, and less about deeper layers (Figure 6.3). Earths crust is a thin, brittle outer shell. The crust is made of rock. This layer is thinner under the oceans and much thicker in mountain ranges. | 0.53334 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | T_1106 | text | null | Despite these problems, there is a rich fossil record. How does an organism become fossilized? | 0.528929 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | T_2315 | text | null | Did you ever get a splinter in your skin, like the one in Figure 21.11? It doesnt look like a serious injury, but even a tiny break in the skin may let pathogens enter the body. If bacteria enter through the break, for example, they could cause an infection. These bacteria would then face the bodys second line of defense. | 0.527522 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | T_4844 | text | null | An electric circuit consists of at least one closed loop through which electric current can flow. Every circuit has a voltage source such as a battery and a conductor such as metal wire. A circuit may have other parts as well, such as lights and switches. In addition, a circuit may consist of one loop or two loops. | 0.522286 |
DQ_003687 | What layer is under the cuticle? | question_images/parts_leaf_3137.png | a. Vein, b. Epidermis, c. Palisade Mesophyll, d. Spongy Mesophyll | b | T_1447 | text | null | Minerals are divided into groups based on chemical composition. Most minerals fit into one of eight mineral groups. | 0.521886 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | DQ_003684 | image | question_images/parts_leaf_3137.png | parts_leaf_3137.png | 1 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | DQ_003363 | image | abc_question_images/parts_leaf_13137.png | parts_leaf_13137.png | 1 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | DQ_003698 | image | question_images/parts_leaf_3139.png | parts_leaf_3139.png | 0.860806 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | DQ_003337 | image | abc_question_images/parts_leaf_11117.png | parts_leaf_11117.png | 0.857782 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | DQ_003703 | image | question_images/parts_leaf_3140.png | parts_leaf_3140.png | 0.851087 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | DQ_003601 | image | question_images/parts_leaf_1117.png | parts_leaf_1117.png | 0.846696 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | DQ_003361 | image | abc_question_images/parts_leaf_13135.png | parts_leaf_13135.png | 0.839473 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | DQ_003372 | image | abc_question_images/parts_leaf_13853.png | parts_leaf_13853.png | 0.835819 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | DQ_003762 | image | question_images/parts_leaf_556.png | parts_leaf_556.png | 0.831379 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | DQ_003370 | image | abc_question_images/parts_leaf_13852.png | parts_leaf_13852.png | 0.813753 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | T_4844 | text | null | An electric circuit consists of at least one closed loop through which electric current can flow. Every circuit has a voltage source such as a battery and a conductor such as metal wire. A circuit may have other parts as well, such as lights and switches. In addition, a circuit may consist of one loop or two loops. | 0.579054 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | T_4536 | text | null | Most cars have at least four cylinders connected to the crankshaft. Their pistons move up and down in sequence, one after the other. A powerful car may have eight pistons, and some race cars may have even more. The more cylinders a car engine has, the more powerful its engine can be. | 0.556389 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | 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? | 0.54837 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | T_1800 | text | null | Most fossils are preserved by one of five processes outlined below (Figure 1.1): | 0.538029 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | T_1698 | text | null | How well soil forms and what type of soil forms depends on several different factors, which are described below. | 0.537486 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | T_2459 | text | null | Besides the four parts listed above, many cells also have a nucleus. The nucleus of a cell is a structure enclosed by a membrane that contains most of the cells DNA. Cells are classified in two major groups based on whether or not they have a nucleus. The two groups are prokaryotic cells and eukaryotic cells. | 0.53101 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | T_1447 | text | null | Minerals are divided into groups based on chemical composition. Most minerals fit into one of eight mineral groups. | 0.530638 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | T_4535 | text | null | In a car, the piston in the engine is connected by the piston rod to the crankshaft. The crankshaft rotates when the piston moves up and down. The crankshaft, in turn, is connected to the driveshaft. When the crankshaft rotates, so does the driveshaft. The rotating driveshaft turns the wheels of the car. | 0.530163 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | 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. | 0.528248 |
DQ_003688 | How many parts are shown in the diagram below? | question_images/parts_leaf_3137.png | a. 5, b. 7, c. 4, d. 6 | b | T_4814 | text | null | Graphs are very useful tools in science. They can help you visualize a set of data. With a graph, you can actually see what all the numbers in a data table mean. Three commonly used types of graphs are bar graphs, circle graphs, and line graphs. Each type of graph is suitable for showing a different type of data. | 0.527819 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | DQ_003684 | image | question_images/parts_leaf_3137.png | parts_leaf_3137.png | 1 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | DQ_003363 | image | abc_question_images/parts_leaf_13137.png | parts_leaf_13137.png | 1 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | DQ_003698 | image | question_images/parts_leaf_3139.png | parts_leaf_3139.png | 0.860806 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | DQ_003337 | image | abc_question_images/parts_leaf_11117.png | parts_leaf_11117.png | 0.857782 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | DQ_003703 | image | question_images/parts_leaf_3140.png | parts_leaf_3140.png | 0.851087 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | DQ_003601 | image | question_images/parts_leaf_1117.png | parts_leaf_1117.png | 0.846696 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | DQ_003361 | image | abc_question_images/parts_leaf_13135.png | parts_leaf_13135.png | 0.839473 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | DQ_003372 | image | abc_question_images/parts_leaf_13853.png | parts_leaf_13853.png | 0.835819 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | DQ_003762 | image | question_images/parts_leaf_556.png | parts_leaf_556.png | 0.831379 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | DQ_003370 | image | abc_question_images/parts_leaf_13852.png | parts_leaf_13852.png | 0.813753 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | 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. | 0.549065 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | T_3201 | text | null | Along with the skin, the integumentary system includes the nails and hair. Both the nails and hair contain the tough protein, keratin. The keratin forms fibers, which makes your nails and hair tough and strong. Keratin is similar in toughness to chitin, the carbohydrate found in the exoskeleton of arthropods. | 0.543069 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | T_1924 | text | null | Dermal tissue covers the outside of a plant. Its like the plants skin. Cells of dermal tissue secrete a waxy substance called cuticle. Cuticle helps prevent water loss and damage to the plant. | 0.540541 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | 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? | 0.538903 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | T_3065 | text | null | Many insects are considered to be pests by humans. However, insects are also very important for numerous reasons. | 0.53624 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | T_2134 | text | null | Fingernails and toenails are made of specialized cells that grow out of the epidermis. They too are filled with keratin. The keratin makes them tough and hard. Their job is to protect the ends of the fingers and toes. They also make it easier to feel things with the sensitive fingertips by acting as a counterforce when things are handled. | 0.533436 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | 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. | 0.528101 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | T_2751 | text | null | Other bacteria are parasitic and can cause illness. In parasitism, the bacteria benefit, and the other organism is harmed. Harmful bacteria will be discussed in another concept. | 0.523538 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | T_2534 | text | null | Both types of reproduction have certain advantages. | 0.523042 |
DQ_003689 | How would remove the cuticle affect the leaf? | question_images/parts_leaf_3137.png | a. The vein would create a new layer of cuticle, b. The leaf would dry out and die, c. Nothing would happen, d. The epidermis would take over the role of the cuticle | b | 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. | 0.520781 |
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.