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DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | a | DQ_003365 | image | abc_question_images/parts_leaf_13149.png | parts_leaf_13149.png | 1 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | a | DQ_003716 | image | question_images/parts_leaf_3149.png | parts_leaf_3149.png | 0.885149 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | a | DQ_003635 | image | question_images/parts_leaf_1124.png | parts_leaf_1124.png | 0.868284 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | a | DQ_003333 | image | abc_question_images/parts_leaf_11105.png | parts_leaf_11105.png | 0.833761 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | a | DQ_003353 | image | abc_question_images/parts_leaf_13131.png | parts_leaf_13131.png | 0.82913 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | a | DQ_003824 | image | question_images/parts_leaf_6269.png | parts_leaf_6269.png | 0.808139 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | a | DQ_003380 | image | abc_question_images/parts_leaf_16264.png | parts_leaf_16264.png | 0.798265 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | a | DQ_003559 | image | question_images/parts_leaf_1105.png | parts_leaf_1105.png | 0.790732 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | a | DQ_003955 | image | question_images/parts_plant_3789.png | parts_plant_3789.png | 0.788711 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | a | DQ_003707 | image | question_images/parts_leaf_3144.png | parts_leaf_3144.png | 0.783986 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | 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. | 0.500461 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | 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? | 0.49966 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | 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. | 0.485445 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | a | 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. | 0.482223 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | a | T_3329 | text | null | Seedless plants can reproduce asexually or sexually. Some seedless plants, like hornworts and liverworts, can reproduce asexually through fragmentation. When a small fragment of the plant is broken off, it can form a new plant. | 0.48026 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | a | T_1698 | text | null | How well soil forms and what type of soil forms depends on several different factors, which are described below. | 0.477272 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | a | 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 | 0.475041 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | 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. | 0.473764 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | a | T_3065 | text | null | Many insects are considered to be pests by humans. However, insects are also very important for numerous reasons. | 0.466096 |
DQ_003365 | Identify the blade of the leaf | abc_question_images/parts_leaf_13149.png | a. D, b. W, c. T, d. K | a | T_2015 | text | null | The majority of arthropods are insects (Class Insecta). In fact, more than half of all known organisms are insects. There may be more than 10 million insect species in the world, although most of them have not yet been identified. In terms of their numbers and diversity, insects clearly are the dominant animals in the world. | 0.461395 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | DQ_003365 | image | abc_question_images/parts_leaf_13149.png | parts_leaf_13149.png | 1 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | DQ_003716 | image | question_images/parts_leaf_3149.png | parts_leaf_3149.png | 0.885149 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | DQ_003635 | image | question_images/parts_leaf_1124.png | parts_leaf_1124.png | 0.868284 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | DQ_003333 | image | abc_question_images/parts_leaf_11105.png | parts_leaf_11105.png | 0.833761 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | DQ_003353 | image | abc_question_images/parts_leaf_13131.png | parts_leaf_13131.png | 0.82913 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | DQ_003824 | image | question_images/parts_leaf_6269.png | parts_leaf_6269.png | 0.808139 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | DQ_003380 | image | abc_question_images/parts_leaf_16264.png | parts_leaf_16264.png | 0.798265 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | DQ_003559 | image | question_images/parts_leaf_1105.png | parts_leaf_1105.png | 0.790732 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | DQ_003955 | image | question_images/parts_plant_3789.png | parts_plant_3789.png | 0.788711 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | DQ_003707 | image | question_images/parts_leaf_3144.png | parts_leaf_3144.png | 0.783986 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | T_4560 | text | null | Kinetic energy is the energy of moving matter. Anything that is moving has kinetic energyfrom atoms in matter to stars in outer space. Things with kinetic energy can do work. For example, the spinning saw blade in the photo above is doing the work of cutting through a piece of metal. | 0.469582 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | T_4854 | text | null | Examples of machines that increase the distance over which force is applied are leaf rakes and hammers (see Figure which the force is applied, but it reduces the strength of the force. | 0.441475 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | T_3647 | text | null | Two simple machines that are based on the inclined plane are the wedge and the screw. Both increase the force used to move an object because the input force is applied over a greater distance than the output force. | 0.440429 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | T_4940 | text | null | Friction is the force that opposes motion between any surfaces that are in contact. There are four types of friction: static, sliding, rolling, and fluid friction. Static, sliding, and rolling friction occur between solid surfaces. Fluid friction occurs in liquids and gases. All four types of friction are described below. | 0.411173 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | T_1698 | text | null | How well soil forms and what type of soil forms depends on several different factors, which are described below. | 0.400403 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | T_0117 | text | null | There are variations in the traits of a population. For example, there are lots of variations in the color of human hair. Hair can be blonde, brown, black, or even red. Hair color is a trait determined by genes. | 0.398901 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | T_4421 | text | null | 1. What is the traditional definition of gravity? 2. Identify factors that influence the strength of gravity between two objects. | 0.397813 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | T_0777 | text | null | Plates move apart at divergent plate boundaries. This can occur in the oceans or on land. | 0.397616 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | T_3883 | text | null | A magnet is an object that attracts certain materials such as iron. Youre probably familiar with common bar magnets, like the one in Figure 24.2. Like all magnets, this bar magnet has north and south poles and attracts objects such as paper clips that contain iron. | 0.397524 |
DQ_003366 | Which label shows the Blade? | abc_question_images/parts_leaf_13149.png | a. D, b. T, c. K, d. W | a | T_4885 | text | null | How fast or slow something moves is its speed. Speed determines how far something travels in a given amount of time. The SI unit for speed is meters per second (m/s). Speed may be constant, but often it varies from moment to moment. | 0.395549 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | a | DQ_003365 | image | abc_question_images/parts_leaf_13149.png | parts_leaf_13149.png | 1 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | a | DQ_003716 | image | question_images/parts_leaf_3149.png | parts_leaf_3149.png | 0.885149 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | a | DQ_003635 | image | question_images/parts_leaf_1124.png | parts_leaf_1124.png | 0.868284 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | a | DQ_003333 | image | abc_question_images/parts_leaf_11105.png | parts_leaf_11105.png | 0.833761 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | a | DQ_003353 | image | abc_question_images/parts_leaf_13131.png | parts_leaf_13131.png | 0.82913 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | a | DQ_003824 | image | question_images/parts_leaf_6269.png | parts_leaf_6269.png | 0.808139 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | a | DQ_003380 | image | abc_question_images/parts_leaf_16264.png | parts_leaf_16264.png | 0.798265 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | a | DQ_003559 | image | question_images/parts_leaf_1105.png | parts_leaf_1105.png | 0.790732 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | a | DQ_003955 | image | question_images/parts_plant_3789.png | parts_plant_3789.png | 0.788711 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | a | DQ_003707 | image | question_images/parts_leaf_3144.png | parts_leaf_3144.png | 0.783986 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | a | 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? | 0.615467 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | 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. | 0.613684 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | 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. | 0.602703 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | a | 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. | 0.588278 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | a | 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. | 0.582817 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | 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. | 0.580214 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | 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? | 0.574715 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | a | T_1942 | text | null | With all these adaptations, its easy to see why vascular plants were very successful. They spread quickly and widely on land. As vascular plants spread, many nonvascular plants went extinct. Vascular plants became and remain the dominant land plants on Earth. | 0.573527 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | 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. | 0.567662 |
DQ_003367 | Identify the primary vein of the leaf: | abc_question_images/parts_leaf_13149.png | a. Y, b. D, c. T, d. K | a | T_2416 | text | null | Primary succession occurs in an area that has never before been colonized by living things. Generally, the area is nothing but bare rock. | 0.564502 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | DQ_003365 | image | abc_question_images/parts_leaf_13149.png | parts_leaf_13149.png | 1 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | DQ_003716 | image | question_images/parts_leaf_3149.png | parts_leaf_3149.png | 0.885149 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | DQ_003635 | image | question_images/parts_leaf_1124.png | parts_leaf_1124.png | 0.868284 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | DQ_003333 | image | abc_question_images/parts_leaf_11105.png | parts_leaf_11105.png | 0.833761 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | DQ_003353 | image | abc_question_images/parts_leaf_13131.png | parts_leaf_13131.png | 0.82913 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | DQ_003824 | image | question_images/parts_leaf_6269.png | parts_leaf_6269.png | 0.808139 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | DQ_003380 | image | abc_question_images/parts_leaf_16264.png | parts_leaf_16264.png | 0.798265 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | DQ_003559 | image | question_images/parts_leaf_1105.png | parts_leaf_1105.png | 0.790732 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | DQ_003955 | image | question_images/parts_plant_3789.png | parts_plant_3789.png | 0.788711 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | DQ_003707 | image | question_images/parts_leaf_3144.png | parts_leaf_3144.png | 0.783986 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | T_4560 | text | null | Kinetic energy is the energy of moving matter. Anything that is moving has kinetic energyfrom atoms in matter to stars in outer space. Things with kinetic energy can do work. For example, the spinning saw blade in the photo above is doing the work of cutting through a piece of metal. | 0.430972 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | T_0272 | text | null | Thunderstorms are are known for their heavy rains and lightning. In strong thunderstorms, hail and high winds are also likely. Thunderstorms are very common. Worldwide, there are about 14 million of them each year! In the U.S., they are most common and strongest in the Midwest. | 0.42476 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | T_1771 | text | null | Thunderstorms are extremely common. Worldwide there are 14 million per year thats 40,000 per day! Most drop a lot of rain on a small area quickly, but some are severe and highly damaging. | 0.415838 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | T_1292 | text | null | Hurricanes called typhoons in the Pacific are also cyclones. They are cyclones that form in the tropics and so they are also called tropical cyclones. By any name, they are the most damaging storms on Earth. | 0.413214 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | T_4854 | text | null | Examples of machines that increase the distance over which force is applied are leaf rakes and hammers (see Figure which the force is applied, but it reduces the strength of the force. | 0.410907 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | T_1096 | text | null | Deadly earthquakes occur at transform plate boundaries. Transform faults have shallow focus earthquakes. Why do you think this is so? | 0.401665 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | T_0777 | text | null | Plates move apart at divergent plate boundaries. This can occur in the oceans or on land. | 0.4004 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | T_1221 | text | null | Nearly all glacial ice, 99%, is contained in ice sheets in the polar regions, particularly Antarctica and Greenland. Glaciers often form in the mountains because higher altitudes are colder and more likely to have snow that falls and collects. Every continent, except Australia, hosts at least some glaciers in the high mountains. | 0.400339 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | T_3647 | text | null | Two simple machines that are based on the inclined plane are the wedge and the screw. Both increase the force used to move an object because the input force is applied over a greater distance than the output force. | 0.395941 |
DQ_003368 | Where is the blade? | abc_question_images/parts_leaf_13149.png | a. k, b. d, c. t, d. y | b | T_4885 | text | null | How fast or slow something moves is its speed. Speed determines how far something travels in a given amount of time. The SI unit for speed is meters per second (m/s). Speed may be constant, but often it varies from moment to moment. | 0.395468 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | DQ_003369 | image | abc_question_images/parts_leaf_13844.png | parts_leaf_13844.png | 1 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | DQ_003728 | image | question_images/parts_leaf_3844.png | parts_leaf_3844.png | 0.840187 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | DQ_003823 | image | question_images/parts_leaf_6268.png | parts_leaf_6268.png | 0.794612 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | DQ_003806 | image | question_images/parts_leaf_6265.png | parts_leaf_6265.png | 0.773902 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | DQ_003319 | image | abc_question_images/parts_leaf_10557.png | parts_leaf_10557.png | 0.771661 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | 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. | 0.77145 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | DQ_003380 | image | abc_question_images/parts_leaf_16264.png | parts_leaf_16264.png | 0.756106 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | DQ_003333 | image | abc_question_images/parts_leaf_11105.png | parts_leaf_11105.png | 0.754137 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | DQ_003746 | image | question_images/parts_leaf_3859.png | parts_leaf_3859.png | 0.751155 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | DQ_003326 | image | abc_question_images/parts_leaf_10560.png | parts_leaf_10560.png | 0.733237 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | T_4854 | text | null | Examples of machines that increase the distance over which force is applied are leaf rakes and hammers (see Figure which the force is applied, but it reduces the strength of the force. | 0.432368 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | T_3647 | text | null | Two simple machines that are based on the inclined plane are the wedge and the screw. Both increase the force used to move an object because the input force is applied over a greater distance than the output force. | 0.430516 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | T_4560 | text | null | Kinetic energy is the energy of moving matter. Anything that is moving has kinetic energyfrom atoms in matter to stars in outer space. Things with kinetic energy can do work. For example, the spinning saw blade in the photo above is doing the work of cutting through a piece of metal. | 0.429852 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | T_1698 | text | null | How well soil forms and what type of soil forms depends on several different factors, which are described below. | 0.421452 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | T_4940 | text | null | Friction is the force that opposes motion between any surfaces that are in contact. There are four types of friction: static, sliding, rolling, and fluid friction. Static, sliding, and rolling friction occur between solid surfaces. Fluid friction occurs in liquids and gases. All four types of friction are described below. | 0.416922 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | T_0117 | text | null | There are variations in the traits of a population. For example, there are lots of variations in the color of human hair. Hair can be blonde, brown, black, or even red. Hair color is a trait determined by genes. | 0.413 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | T_4421 | text | null | 1. What is the traditional definition of gravity? 2. Identify factors that influence the strength of gravity between two objects. | 0.403666 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | T_2534 | text | null | Both types of reproduction have certain advantages. | 0.400853 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | T_4485 | text | null | Most halogens have a variety of important uses. A few are described in the Figure 1.3. Q: Can you relate some of these uses of halogens to the properties of these elements? A: The ability of halogens to kill germs and bleach clothes relates to their highly reactive nature. | 0.398585 |
DQ_003369 | Which label stands for the blade? | abc_question_images/parts_leaf_13844.png | a. D, b. W, c. Y, d. J | b | T_0272 | text | null | Thunderstorms are are known for their heavy rains and lightning. In strong thunderstorms, hail and high winds are also likely. Thunderstorms are very common. Worldwide, there are about 14 million of them each year! In the U.S., they are most common and strongest in the Midwest. | 0.398235 |
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