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URL:https://www.learndesk.us/class/5343086307704832/lesson/9f33cf38934fa3c3c7a2cb83ab4072d1?ref=outlook-calendar
SUMMARY:UNIT 1
DTSTART;TZID=America/Los_Angeles:20260501T190000
DTEND;TZID=America/Los_Angeles:20260501T200000
LOCATION:https://www.learndesk.us/class/5343086307704832/lesson/9f33cf38934fa3c3c7a2cb83ab4072d1?ref=outlook-calendar
DESCRIPTION: The energy stored in a system is conserved such that the total energy is always a constant, given that no energy dissipates from the system as sound or heat. In the system shown below, a ball of mass m is dropped from a height h onto a ramp with a spring attached to the wall at the end of the ramp as shown in figure 1. Assume that the frictional constant is negligible. Figure 2 shows the relationship between the kinetic, gravitational and elastic energy involved in the system below.

Figure 1. Ball of mass m dropped from a height h onto a circular ramp and collided with a spring.

Figure 2. Formulas relating to the potential energy of the system shown in figure 1. Ke is the kinetic energy, Ge is the gravitational energy, PE is the potential elastic energy of the spring. k is the spring constant and is related to the force (F) and the displacement (x) of the spring. g is the gravitational constant, taken to be 10 m/s2 on earth. m is the mass of the ball. v is the velocity of the...

https://www.learndesk.us/class/5343086307704832/lesson/9f33cf38934fa3c3c7a2cb83ab4072d1?ref=outlook-calendar
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