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Difference between revisions of "F = MA 2020 (Mock) Problems"

(Problem 5)
(Problem 6)
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==Problem 6==
 
==Problem 6==
 
A block of mass <math>m</math> initially at rest, is dropped from height <math>h</math> above a spring of spring constant <math>k</math>. What is the maximum compression of the spring?
 
A block of mass <math>m</math> initially at rest, is dropped from height <math>h</math> above a spring of spring constant <math>k</math>. What is the maximum compression of the spring?
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==Problem 7==
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Initially, A block <math>A</math> has a mass of <math>14 kg</math> which slides across surface with velocity <math>u</math> and block <math>B</math> has a mass of <math>16 kg</math> which slides at a speed of <math>v</math>, with <math>u > v</math>. Block A slides east while Block B slides in west. The surface has coefficient of friction <math>\mu</math>. How far does do the blocks move together before stopping?

Revision as of 15:42, 8 July 2020

Problem 1

Initially at rest, $2$ masses $3m$ and $5m$ hang on $2$ ends of a massless rope on a massless, smooth pulley and the mass $3m$ hangs $l$ feet above the ground. Once the system is released, what is the speed of the $3m$ block when it strikes the ground?


Problem 2

An equilateral triangle has a side length of $s$. How high above the base of the triangle the center of mass of the triangle located?


Problem 3

A small object of mass $m$ is tied to a string of length $l$ and is whirled around a horizontal circle of radius $r$ with a constant speed $v$, in a conical pendulum. The center of the circle is vertically below the point of support. What is the period of revolution?


Problem 4

$2$ blocks are connected by a massless string which slide down an inclined plane having an angle of inclination of $40^\circ$. The masses of the blocks are $M1 = 4 kg$ and $M2 = 2kg$, and $M1$ is above $M2$. Both blocks have a Coefficients of friction $0.25$ with the inclined plane. What is the tension in the string?


Problem 5

An massless object is thrown upwards in a projectile path, at an angle of $\theta$ with a velocity $v$. What is the equation of the trajectory of the object’s path? (Write as simplified as possible).

Problem 6

A block of mass $m$ initially at rest, is dropped from height $h$ above a spring of spring constant $k$. What is the maximum compression of the spring?


Problem 7

Initially, A block $A$ has a mass of $14 kg$ which slides across surface with velocity $u$ and block $B$ has a mass of $16 kg$ which slides at a speed of $v$, with $u > v$. Block A slides east while Block B slides in west. The surface has coefficient of friction $\mu$. How far does do the blocks move together before stopping?

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