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Simple Harmonic Motion: Mass on a Spring 1 1 point Use this website: https://ophysics.com/w1.html =>to answer the following questions. The equilibrium of this mass on a spring is located at x = 0. The default values are: Define equilibrium. Remember F=ma and since the mass isn't changing, the higher Initial Spring Stretch (m) Ax; = 5 the acceleration, the higher the force. Location where the net force on an object/system in SHM is the largest. Mass of Block (kg) m = 10 O Location where the net force on an object/system in SHM is zero Spring Constant (N/m) k = 80 2 2 points When the block approaches equilibrium (x=0), what happens to the velocity? O Increases O Decreases O Stays the same 3 2 points When the block approaches equilibrium (x=0), what happens to the kinetic energy? O Increases O Decreases O Stays the sameSimple Harmonic Motion: Mass on a Spring n 1 mint Q The amplitude ofthis mass on a spring is located at xmax. Dene amplitude. Remember F =ma and since the mass isn't changing, the higher the acceleration, the higher the force. Use this website: mpszllomysics.com/w1.htm| E>_to answer the following questions. The default values are: Initial Spring StretCh (m) Axi =[5: Location where the net force on an object/system in . SH M is the largest. Location where the net force on an object/system in MaSS Of BIOCk (kg) m =- SHM is zero # Spring Constant (N/m) k =- 2 points When the block approaches xmax, what happens to the kinetic energy? Increases Decreases Stays the same n 2 points 5 When the block approaches xmax, what happens to the velocity? Increases Decreases Stays the same Use this website: https://ophysics.com/w1.htm| it answer the following questions. The default values are: Initial Spring Stretch (rn) Axi =B + Mass of Block (kg) m =- # Spring Constant (N/m) k =- to n 2 points Q When the block approaches xmax, what happens to the velocity? Increases Decreases Stays the same 1 point Q Return to default values. How much time does it take to start at xmaX and return to xmax? The time it takes for one back and forth motion is called the period. Type your answer... a 1 point What affect does increasing the spring constant have on the period? Try starting at k = 10 N/m Increases Decreases Stays the same Can't be determined Masses and Springs 9 1 point Use this website https://phet.colorado.edu/sims/html/masses-and- Hit the pause button and attach the 100 g mass. Pull the mass springs/latest/masses-and-springs_en.html .to answer all the way down to the Height = 0 m line. Make the following questions. sure Damping is set to none. Click on the Lab tab and make sure Damping is set to None. Mass 100 g Spring Constant 1 Displacemen 50 300 Small Large O Natural Length Masses and Springs Mass Equilibrium Movable Line Period Trace Gravity 9.8 m/s2 E Earth Intro Vectors Energy Damping None Lots Velocity Lab Acceleration 00:00.00 S D 100 g Normal O Slow Height = 0 m Click Period Trace and drag the Timer to right next to the mass. Press play and measure the period of the mass. You can change the speed to Slow. You can always time 10 cycles and then divide your time by 10. Type your answer...O Acceleration Masses and Springs Use this website https://phet.colorado.edu/sims/html/masses-and- springs/latest/masses-and-springs_en.html Ex.to answer 00:00.00 5 D the following questions. 100 g Normal Click on the Lab tab and make sure Damping is set to None. Height = 0 m O Slow Masses and Springs Click Period Trace and drag the Timer to right next to the mass. Press play and measure the period of the mass. You can change the speed to Slow. You can always time 10 cycles and then divide your time by 10. Type your answer... Intro Vectors Energy Lab 10 1 point Now that you have the period (s) and you know the mass (0.1 kg), you can now solve for the spring constant using the following equation: T = 271K Type your answer.. 11 2 points Now that you have the spring constant, let's figure out how much mass is in the red object. Type your