A sign hangs precariously from your prof's office door. Calculate the magnitude of the tension in string 1, if theta₁ = 33.36°, theta₂ = 56.67°, and the mass of the sign is 8.9 kg. HINT: Separate the forces into components. By doing so, one can derive two expressions with two unknowns and thus solve for the unknowns, i.e. the tensions. N Resources: Please see the Vanier Physics Wiki for readings, videos and simulations on Newton's Laws. ¹0₂ string 2 0₁ string 1 DON'T PANIC

A sign hangs precariously from your prof's office door. Calculate the magnitude of the tension in string 1, if theta₁ = 33.36°, theta₂ = 56.67°, and the mass of the sign is 8.9 kg. HINT: Separate the forces into components. By doing so, one can derive two expressions with two unknowns and thus solve for the unknowns, i.e. the tensions. N Resources: Please see the Vanier Physics Wiki for readings, videos and simulations on Newton's Laws. ¹0₂ string 2 0₁ string 1 DON'T PANIC

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Description: A sign hangs precariously from your prof's office door. Calculate the magnitude of the tension in string 1, if theta₁ = 33.36°, theta2 = 56.67°, and the mass of the sign is 8.9 kg.HINT: Separate the forces into components. By doing so, one can deriv

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Chapter1: Units, Trigonometry. And Vectors

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Newton's Second Law

Newton’s laws of motion describe the relationship between the motion of an object and forces acting on it. Newton’s law of motion has two types as follows:

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A sign hangs precariously from your prof's office door. Calculate the magnitude of the tension in string 1, if theta₁ = 33.36°, theta2 = 56.67°, and the mass of the sign is 8.9 kg.
HINT: Separate the forces into components. By doing so, one can derive two expressions with two unknowns and thus solve for the unknowns, i.e. the tensions.
N
Resources: Please see the Vanier Physics Wiki for readings, videos and simulations on Newton's Laws.
102
string 2
0₁
string 1
DON'T
PANIC

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