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The height of the down-sprue is 175 mm and its cross-sectional area at the base is
. The cross sectional area of the horizontal runner is . Assuming no losses, indicate the correct choice for the time (in seconds) required to fill a mould cavity of volume . Ans ?
Verified Answer
The height of the down-sprue is 175 mm and its cross-sectional area at...
Method to Solve :

T = V/(Vg x Ag).
= 10^6/200 x Square root(2gh).
= 10^6/200 x Square root (2 x 10 x 175 x 10^-3).
= 2.67 seconds.
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The height of the down-sprue is 175 mm and its cross-sectional area at the base is. The cross sectional area of the horizontal runner is . Assuming no losses, indicate the correct choice for the time (in seconds) required to fill a mould cavity of volume . Ans ?
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The height of the down-sprue is 175 mm and its cross-sectional area at the base is. The cross sectional area of the horizontal runner is . Assuming no losses, indicate the correct choice for the time (in seconds) required to fill a mould cavity of volume . Ans ? for Mechanical Engineering 2024 is part of Mechanical Engineering preparation. The Question and answers have been prepared according to the Mechanical Engineering exam syllabus. Information about The height of the down-sprue is 175 mm and its cross-sectional area at the base is. The cross sectional area of the horizontal runner is . Assuming no losses, indicate the correct choice for the time (in seconds) required to fill a mould cavity of volume . Ans ? covers all topics & solutions for Mechanical Engineering 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for The height of the down-sprue is 175 mm and its cross-sectional area at the base is. The cross sectional area of the horizontal runner is . Assuming no losses, indicate the correct choice for the time (in seconds) required to fill a mould cavity of volume . Ans ?.
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