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Class 6 Exam  >  Class 6 Tests  >  Eureka Plus Class 6: Book Solutions, Notes & Worksheets  >  Test: Motion and Measurement of Distances - Class 6 MCQ

Test: Motion and Measurement of Distances - Class 6 MCQ


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16 Questions MCQ Test Eureka Plus Class 6: Book Solutions, Notes & Worksheets - Test: Motion and Measurement of Distances

Test: Motion and Measurement of Distances for Class 6 2024 is part of Eureka Plus Class 6: Book Solutions, Notes & Worksheets preparation. The Test: Motion and Measurement of Distances questions and answers have been prepared according to the Class 6 exam syllabus.The Test: Motion and Measurement of Distances MCQs are made for Class 6 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Motion and Measurement of Distances below.
Solutions of Test: Motion and Measurement of Distances questions in English are available as part of our Eureka Plus Class 6: Book Solutions, Notes & Worksheets for Class 6 & Test: Motion and Measurement of Distances solutions in Hindi for Eureka Plus Class 6: Book Solutions, Notes & Worksheets course. Download more important topics, notes, lectures and mock test series for Class 6 Exam by signing up for free. Attempt Test: Motion and Measurement of Distances | 16 questions in 10 minutes | Mock test for Class 6 preparation | Free important questions MCQ to study Eureka Plus Class 6: Book Solutions, Notes & Worksheets for Class 6 Exam | Download free PDF with solutions
Test: Motion and Measurement of Distances - Question 1
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How did transportation evolve over time, leading to advancements in travel options for people worldwide?

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Transportation has evolved significantly over time, from the use of horses and camels for travel to the development of cars and airplanes in the early 20th century. The introduction of cars and airplanes revolutionized travel by providing faster and more efficient modes of transportation, ultimately leading to modern air travel and widespread use of automobiles. This advancement in transportation not only increased the speed of travel but also expanded the accessibility of different destinations, transforming the way people explore the world.
Test: Motion and Measurement of Distances - Question 2
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What major innovation in transportation emerged in the 19th century that significantly impacted travel and trade?

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One major innovation in transportation that emerged in the 19th century was the advancements in railway systems. The development of railways revolutionized travel and trade by providing a fast, efficient, and reliable mode of transportation for both passengers and goods. Railways facilitated the movement of people and products across long distances, leading to the growth of industries, trade networks, and urbanization. The expansion of railway networks played a crucial role in shaping the modern world and connecting distant regions in ways that were previously unimaginable.
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Test: Motion and Measurement of Distances - Question 3
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What was a key mode of travel used by people before the advent of cars and airplanes in the early 20th century?

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Before the introduction of cars and airplanes in the early 20th century, one key mode of travel used by people was traveling by horse-drawn carriages. Horse-drawn carriages provided a means of transportation for individuals and goods, offering a more comfortable and faster alternative to traveling on foot. These carriages played a vital role in facilitating both short-distance travel within cities and longer journeys between towns and regions, contributing to the mobility and connectivity of communities during that time.
Test: Motion and Measurement of Distances - Question 4
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How did advancements in transportation contribute to the growth and development of modern air travel?
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Advancements in transportation, such as the evolution of larger boats and ships, played a significant role in contributing to the growth and development of modern air travel. The improvements in maritime transportation not only expanded global trade and connectivity but also laid the foundation for technological innovations that eventually led to the emergence of air travel. The lessons learned from enhancing sea-based transportation systems, including navigation, propulsion, and safety measures, were instrumental in shaping the aviation industry and making modern air travel a reality.
Test: Motion and Measurement of Distances - Question 5
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Why are accurate measurements considered crucial in our daily lives?
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Accurate measurements play a vital role in our daily lives as they enable us to measure various quantities precisely, such as time, distance, mass, volume, and temperature. This precision is essential for tasks ranging from basic daily activities to complex scientific experiments, ensuring that things are built, calculated, and managed accurately.
Test: Motion and Measurement of Distances - Question 6
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How do accurate measurements contribute to the construction of everyday objects like classroom doors and windows?
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Accurate measurements are crucial in the construction of everyday objects like classroom doors and windows because they enable precise sizing and fitting during the building process. By ensuring that components are measured accurately, construction workers can create doors and windows that fit perfectly, function effectively, and contribute to the overall safety and quality of the structures.
Test: Motion and Measurement of Distances - Question 7
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What is the significance of the International System of Units (SI units) in measurements?
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The International System of Units (SI units) serves as a globally recognized standard for measuring various quantities such as time, distance, mass, volume, and temperature. This standardized system ensures consistency and facilitates communication in scientific, technological, and everyday contexts, allowing for accurate and universal measurements across different regions and disciplines.
Test: Motion and Measurement of Distances - Question 8
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Why is it important for people worldwide to use consistent units of measurement like the SI units?
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The adoption of consistent units of measurement like the SI units is crucial for promoting clear communication and understanding across cultures and disciplines globally. By using a standardized system, individuals from different backgrounds can effectively convey measurements, data, and findings without confusion or misinterpretation, fostering collaboration and progress in various fields of study and practice.
Test: Motion and Measurement of Distances - Question 9
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What is the SI unit for measuring mass?
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The SI unit for measuring mass is the kilogram (kg). The kilogram is defined as the base unit of mass in the International System of Units (SI) and is equal to the mass of the international prototype of the kilogram, a platinum-iridium alloy cylinder kept at the International Bureau of Weights and Measures in France.
Test: Motion and Measurement of Distances - Question 10
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What is the SI unit for measuring temperature?
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The SI unit for measuring temperature is the Kelvin (K). The Kelvin scale is an absolute temperature scale where zero is defined as absolute zero, the theoretical point where particles have minimal motion. This scale is commonly used in scientific contexts.
Test: Motion and Measurement of Distances - Question 11
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What is the SI unit for measuring time?
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The SI unit for measuring time is the second (s). The second is defined as the duration of 9,192,631,770 periods of the radiation corresponding to the transition between two hyperfine levels of the ground state of the cesium-133 atom.
Test: Motion and Measurement of Distances - Question 12
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What is the SI unit for measuring electric current?
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The SI unit for measuring electric current is the Ampere (A). One ampere is defined as the amount of current that flows through two parallel conductors of infinite length and negligible cross-section area placed one meter apart in a vacuum, which produces a force of 2 x 10^-7 newtons per meter of length.
Test: Motion and Measurement of Distances - Question 13
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What type of motion is exhibited when the Earth rotates on its axis and revolves around the Sun?
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The Earth's rotation on its axis and its revolution around the Sun represent periodic motion. This means that these movements repeat themselves in fixed time intervals. The Earth's rotation causes day and night, while its revolution around the Sun leads to the changing seasons. Understanding these motions is essential for comprehending phenomena like day-night cycles and seasonal changes on Earth.
Test: Motion and Measurement of Distances - Question 14
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Which type of motion involves objects moving back and forth between two points, like the swinging of a pendulum?
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Oscillatory motion describes the movement of objects as they swing back and forth between two points. This type of motion is commonly observed in pendulums, where the pendulum swings repeatedly in a regular interval. Oscillatory motion is crucial in various applications, such as timekeeping in clocks and regulating movements in various mechanical systems.
Test: Motion and Measurement of Distances - Question 15
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When an object moves along a straight path, what type of motion is it exhibiting?
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Rectilinear motion occurs when an object moves along a straight path. This type of motion is characterized by movement in a single direction without any curvature. Understanding rectilinear motion is important in fields like physics and engineering for analyzing the motion of objects along straight trajectories.
Test: Motion and Measurement of Distances - Question 16
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In what scenario would a combination of rotational and oscillatory motions be typically observed?
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A spinning top is a classic example where both rotational and oscillatory motions are combined. As the top spins around its axis (rotational motion), it also exhibits a wobbling motion (oscillatory motion) as it precesses. This combination of motions results in the intricate patterns and behaviors observed when playing with spinning tops, showcasing the interplay between rotational and oscillatory dynamics.
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