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Sagging of a bridge A bridge is designed such that it can withstand the load of the flowing traffic, the force of winds and its own weight. Let us consider the case of a beam loaded at the centre and supported near its ends as shown in Figure. A beam of length l, breadth b, and depth d when loaded at the centre by a load W sags by an amount given by
From the equation, we see that to reduce the bending for a given load, one should use a material with a large Young’s modulus Y. For a given material, increasing the depth d rather than the breadth b is more effective in reducing the bending, since δ is proportional to d–3 and to b–1 (of course the length l of the span should be as small as possible).
Amongst bridge materials steel has the highest and most favorable strength qualities, and it is therefore suitable for the most daring bridges with the longest spans. Normal building steel has compressive and tensile strengths of 370 N/sq mm, about ten times the compressive strength of a medium concrete and a hundred times its tensile strength. A special merit of steel is its ductility due to which it deforms considerably before it breaks, because it begins to yield above a certain stress level.
Q. A bar of length l, breadth b, and depth d, supported at two ends when loaded at the centre by a load W sags by an amount given by
  • a)
  • b)
  • c)
  • d)
Correct answer is option 'A'. Can you explain this answer?
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Let us consider the case of a beam loaded at the centre and supported near its ends. A beam of length l, breadth b, and depth d when loaded at the centre by a load W sags by an amount given by
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Attempt All Questions sub parts from each question.Sagging of a bridge A bridge is designed such that it can withstand the load of the flowing traffic, the force of winds and its own weight. Let us consider the case of a beam loaded at the centre and supported near its ends as shown in Figure. A beam of length l, breadth b, and depth d when loaded at the centre by a load W sags by an amount given byFrom the equation, we see that to reduce the bending for a given load, one should use a material with a large Young’s modulus Y. For a given material, increasing the depth d rather than the breadth b is more effective in reducing the bending, since δ is proportional to d–3 and to b–1 (of course the length l of the span should be as small as possible).Amongst bridge materials steel has the highest and most favorable strength qualities, and it is therefore suitable for the most daring bridges with the longest spans. Normal building steel has compressive and tensile strengths of 370 N/sq mm, about ten times the compressive strength of a medium concrete and a hundred times its tensile strength. A special merit of steel is its ductility due to which it deforms considerably before it breaks, because it begins to yield above a certain stress level.Q. A bar of length l, breadth b, and depth d, supported at two ends when loaded at the centre by a load W sags by an amount given bya)b)c)d)Correct answer is option 'A'. Can you explain this answer?
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Attempt All Questions sub parts from each question.Sagging of a bridge A bridge is designed such that it can withstand the load of the flowing traffic, the force of winds and its own weight. Let us consider the case of a beam loaded at the centre and supported near its ends as shown in Figure. A beam of length l, breadth b, and depth d when loaded at the centre by a load W sags by an amount given byFrom the equation, we see that to reduce the bending for a given load, one should use a material with a large Young’s modulus Y. For a given material, increasing the depth d rather than the breadth b is more effective in reducing the bending, since δ is proportional to d–3 and to b–1 (of course the length l of the span should be as small as possible).Amongst bridge materials steel has the highest and most favorable strength qualities, and it is therefore suitable for the most daring bridges with the longest spans. Normal building steel has compressive and tensile strengths of 370 N/sq mm, about ten times the compressive strength of a medium concrete and a hundred times its tensile strength. A special merit of steel is its ductility due to which it deforms considerably before it breaks, because it begins to yield above a certain stress level.Q. A bar of length l, breadth b, and depth d, supported at two ends when loaded at the centre by a load W sags by an amount given bya)b)c)d)Correct answer is option 'A'. Can you explain this answer? for Class 11 2024 is part of Class 11 preparation. The Question and answers have been prepared according to the Class 11 exam syllabus. Information about Attempt All Questions sub parts from each question.Sagging of a bridge A bridge is designed such that it can withstand the load of the flowing traffic, the force of winds and its own weight. Let us consider the case of a beam loaded at the centre and supported near its ends as shown in Figure. A beam of length l, breadth b, and depth d when loaded at the centre by a load W sags by an amount given byFrom the equation, we see that to reduce the bending for a given load, one should use a material with a large Young’s modulus Y. For a given material, increasing the depth d rather than the breadth b is more effective in reducing the bending, since δ is proportional to d–3 and to b–1 (of course the length l of the span should be as small as possible).Amongst bridge materials steel has the highest and most favorable strength qualities, and it is therefore suitable for the most daring bridges with the longest spans. Normal building steel has compressive and tensile strengths of 370 N/sq mm, about ten times the compressive strength of a medium concrete and a hundred times its tensile strength. A special merit of steel is its ductility due to which it deforms considerably before it breaks, because it begins to yield above a certain stress level.Q. A bar of length l, breadth b, and depth d, supported at two ends when loaded at the centre by a load W sags by an amount given bya)b)c)d)Correct answer is option 'A'. Can you explain this answer? covers all topics & solutions for Class 11 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Attempt All Questions sub parts from each question.Sagging of a bridge A bridge is designed such that it can withstand the load of the flowing traffic, the force of winds and its own weight. Let us consider the case of a beam loaded at the centre and supported near its ends as shown in Figure. A beam of length l, breadth b, and depth d when loaded at the centre by a load W sags by an amount given byFrom the equation, we see that to reduce the bending for a given load, one should use a material with a large Young’s modulus Y. For a given material, increasing the depth d rather than the breadth b is more effective in reducing the bending, since δ is proportional to d–3 and to b–1 (of course the length l of the span should be as small as possible).Amongst bridge materials steel has the highest and most favorable strength qualities, and it is therefore suitable for the most daring bridges with the longest spans. Normal building steel has compressive and tensile strengths of 370 N/sq mm, about ten times the compressive strength of a medium concrete and a hundred times its tensile strength. A special merit of steel is its ductility due to which it deforms considerably before it breaks, because it begins to yield above a certain stress level.Q. A bar of length l, breadth b, and depth d, supported at two ends when loaded at the centre by a load W sags by an amount given bya)b)c)d)Correct answer is option 'A'. Can you explain this answer?.
Solutions for Attempt All Questions sub parts from each question.Sagging of a bridge A bridge is designed such that it can withstand the load of the flowing traffic, the force of winds and its own weight. Let us consider the case of a beam loaded at the centre and supported near its ends as shown in Figure. A beam of length l, breadth b, and depth d when loaded at the centre by a load W sags by an amount given byFrom the equation, we see that to reduce the bending for a given load, one should use a material with a large Young’s modulus Y. For a given material, increasing the depth d rather than the breadth b is more effective in reducing the bending, since δ is proportional to d–3 and to b–1 (of course the length l of the span should be as small as possible).Amongst bridge materials steel has the highest and most favorable strength qualities, and it is therefore suitable for the most daring bridges with the longest spans. Normal building steel has compressive and tensile strengths of 370 N/sq mm, about ten times the compressive strength of a medium concrete and a hundred times its tensile strength. A special merit of steel is its ductility due to which it deforms considerably before it breaks, because it begins to yield above a certain stress level.Q. A bar of length l, breadth b, and depth d, supported at two ends when loaded at the centre by a load W sags by an amount given bya)b)c)d)Correct answer is option 'A'. Can you explain this answer? in English & in Hindi are available as part of our courses for Class 11. Download more important topics, notes, lectures and mock test series for Class 11 Exam by signing up for free.
Here you can find the meaning of Attempt All Questions sub parts from each question.Sagging of a bridge A bridge is designed such that it can withstand the load of the flowing traffic, the force of winds and its own weight. Let us consider the case of a beam loaded at the centre and supported near its ends as shown in Figure. A beam of length l, breadth b, and depth d when loaded at the centre by a load W sags by an amount given byFrom the equation, we see that to reduce the bending for a given load, one should use a material with a large Young’s modulus Y. For a given material, increasing the depth d rather than the breadth b is more effective in reducing the bending, since δ is proportional to d–3 and to b–1 (of course the length l of the span should be as small as possible).Amongst bridge materials steel has the highest and most favorable strength qualities, and it is therefore suitable for the most daring bridges with the longest spans. Normal building steel has compressive and tensile strengths of 370 N/sq mm, about ten times the compressive strength of a medium concrete and a hundred times its tensile strength. A special merit of steel is its ductility due to which it deforms considerably before it breaks, because it begins to yield above a certain stress level.Q. A bar of length l, breadth b, and depth d, supported at two ends when loaded at the centre by a load W sags by an amount given bya)b)c)d)Correct answer is option 'A'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of Attempt All Questions sub parts from each question.Sagging of a bridge A bridge is designed such that it can withstand the load of the flowing traffic, the force of winds and its own weight. Let us consider the case of a beam loaded at the centre and supported near its ends as shown in Figure. A beam of length l, breadth b, and depth d when loaded at the centre by a load W sags by an amount given byFrom the equation, we see that to reduce the bending for a given load, one should use a material with a large Young’s modulus Y. For a given material, increasing the depth d rather than the breadth b is more effective in reducing the bending, since δ is proportional to d–3 and to b–1 (of course the length l of the span should be as small as possible).Amongst bridge materials steel has the highest and most favorable strength qualities, and it is therefore suitable for the most daring bridges with the longest spans. Normal building steel has compressive and tensile strengths of 370 N/sq mm, about ten times the compressive strength of a medium concrete and a hundred times its tensile strength. A special merit of steel is its ductility due to which it deforms considerably before it breaks, because it begins to yield above a certain stress level.Q. A bar of length l, breadth b, and depth d, supported at two ends when loaded at the centre by a load W sags by an amount given bya)b)c)d)Correct answer is option 'A'. Can you explain this answer?, a detailed solution for Attempt All Questions sub parts from each question.Sagging of a bridge A bridge is designed such that it can withstand the load of the flowing traffic, the force of winds and its own weight. Let us consider the case of a beam loaded at the centre and supported near its ends as shown in Figure. A beam of length l, breadth b, and depth d when loaded at the centre by a load W sags by an amount given byFrom the equation, we see that to reduce the bending for a given load, one should use a material with a large Young’s modulus Y. For a given material, increasing the depth d rather than the breadth b is more effective in reducing the bending, since δ is proportional to d–3 and to b–1 (of course the length l of the span should be as small as possible).Amongst bridge materials steel has the highest and most favorable strength qualities, and it is therefore suitable for the most daring bridges with the longest spans. Normal building steel has compressive and tensile strengths of 370 N/sq mm, about ten times the compressive strength of a medium concrete and a hundred times its tensile strength. A special merit of steel is its ductility due to which it deforms considerably before it breaks, because it begins to yield above a certain stress level.Q. A bar of length l, breadth b, and depth d, supported at two ends when loaded at the centre by a load W sags by an amount given bya)b)c)d)Correct answer is option 'A'. Can you explain this answer? has been provided alongside types of Attempt All Questions sub parts from each question.Sagging of a bridge A bridge is designed such that it can withstand the load of the flowing traffic, the force of winds and its own weight. Let us consider the case of a beam loaded at the centre and supported near its ends as shown in Figure. A beam of length l, breadth b, and depth d when loaded at the centre by a load W sags by an amount given byFrom the equation, we see that to reduce the bending for a given load, one should use a material with a large Young’s modulus Y. For a given material, increasing the depth d rather than the breadth b is more effective in reducing the bending, since δ is proportional to d–3 and to b–1 (of course the length l of the span should be as small as possible).Amongst bridge materials steel has the highest and most favorable strength qualities, and it is therefore suitable for the most daring bridges with the longest spans. Normal building steel has compressive and tensile strengths of 370 N/sq mm, about ten times the compressive strength of a medium concrete and a hundred times its tensile strength. A special merit of steel is its ductility due to which it deforms considerably before it breaks, because it begins to yield above a certain stress level.Q. A bar of length l, breadth b, and depth d, supported at two ends when loaded at the centre by a load W sags by an amount given bya)b)c)d)Correct answer is option 'A'. Can you explain this answer? theory, EduRev gives you an ample number of questions to practice Attempt All Questions sub parts from each question.Sagging of a bridge A bridge is designed such that it can withstand the load of the flowing traffic, the force of winds and its own weight. Let us consider the case of a beam loaded at the centre and supported near its ends as shown in Figure. A beam of length l, breadth b, and depth d when loaded at the centre by a load W sags by an amount given byFrom the equation, we see that to reduce the bending for a given load, one should use a material with a large Young’s modulus Y. For a given material, increasing the depth d rather than the breadth b is more effective in reducing the bending, since δ is proportional to d–3 and to b–1 (of course the length l of the span should be as small as possible).Amongst bridge materials steel has the highest and most favorable strength qualities, and it is therefore suitable for the most daring bridges with the longest spans. Normal building steel has compressive and tensile strengths of 370 N/sq mm, about ten times the compressive strength of a medium concrete and a hundred times its tensile strength. A special merit of steel is its ductility due to which it deforms considerably before it breaks, because it begins to yield above a certain stress level.Q. A bar of length l, breadth b, and depth d, supported at two ends when loaded at the centre by a load W sags by an amount given bya)b)c)d)Correct answer is option 'A'. Can you explain this answer? tests, examples and also practice Class 11 tests.
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