https://euler.vaniercollege.qc.ca/gwikis/pwiki/index.php?action=history&feed=atom&title=Static_and_Dynamic_EquilibriumStatic and Dynamic Equilibrium - Revision history2026-04-20T17:00:25ZRevision history for this page on the wikiMediaWiki 1.43.0https://euler.vaniercollege.qc.ca/gwikis/pwiki/index.php?title=Static_and_Dynamic_Equilibrium&diff=196&oldid=previmported>Patrick at 02:55, 15 June 20112011-06-15T02:55:13Z<p></p>
<p><b>New page</b></p><div>''Helena Dedic''<br><br><br />
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•'''Equilibrium:''' An object is said to be in equilibrium if and only if the sum of all forces exerted on this object is equal to zero.<br><br />
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•We call the sum of forces exerted on an object the '''net force''' and use the symbol <math>\overrightarrow F_{net}</math>.<br><br />
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•When the net force on an object is equal to zero then this object is either at '''rest''' (<u>static</u> equilibrium) or moving at '''constant velocity''' (<u>dynamic</u> equilibrium).<br><br><br />
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<span style="color:Red"><u>'''Beware:</u></span> Many of the solutions to these exercises use <math>g = 10 m/s^2</math> !'''<br />
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====Exercise 1====<br />
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Two blocks with masses <math>m_A = 0.2</math> kg and <math>m_B</math> hang under one another. The maximum allowable tension in the upper rope is <math>T_1 = 8</math> N and the maximum allowable tension in the lower rope is <math>T_2 = 4</math> N. Find the maximum mass <math>m_B</math> and the tensions in the (massless) ropes when the two blocks are at rest.<br><br><br />
[[image: Ex1_Static and Dynamic Eq_Helena.PNG|center]]<br><br><br />
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*[[Static and Dynamic Equilibrium EX 1|SOLUTION EX 1]]<br><br><br />
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====Exercise 2====<br />
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A 5 kg block on a 37° incline is acted on by a horizontal force of 40 N. It is moving up the incline at 6 m/s. What are the normal force and the force of friction acting on this block?<br><br><br />
[[image: Ex2_Static and Dynamic Eq_Helena.PNG|center]]<br><br><br />
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*[[Static and Dynamic Equilibrium EX 2|SOLUTION EX 2]]<br><br><br />
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====Exercise 3====<br />
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An 8 kg block at rest on a 30° incline is acted on by a horizontal force of 30 N. What is the direction of the force? Determine the magnitude of the normal force and the force of friction acting on this block?<br><br><br />
[[image: Ex3_Static and Dynamic Eq_Helena.PNG|center]]<br><br><br />
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*[[Static and Dynamic Equilibrium EX 3|SOLUTION EX 3]]<br><br><br />
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====Exercise 4====<br />
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Two blocks of equal masses <math>m_1 = m_2 = 5</math> kg are connected via a pulley. Find the force of friction given that <math>m_1</math> is moving down at 5 m/s.<br />
[[image: Ex4_Static and Dynamic Eq_Helena.PNG|center]]<br><br><br />
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*[[Static and Dynamic Equilibrium EX 4|SOLUTION EX 4]]<br><br><br />
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====Exercise 5====<br />
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A spring of spring constant <math>k = 5 \times 10^3</math> N/m supports an 8 kg block. How much does the spring stretch when the spring moves up at constant velocity?<br />
[[image: Ex5_Static and Dynamic Eq_Helena.PNG|center]]<br><br><br />
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*[[Static and Dynamic Equilibrium EX 5|SOLUTION EX 5]]<br><br></div>imported>Patrick