Only Parts d, e and f Hooke's Law represents a linear restoring force where an elastic...
Only Parts d, e and f
Hooke's Law represents a linear restoring force where an elastic system is displaced from equilibrium. In an experiment a rubber band and a spring were placed in a vertical position and a series of having Masses were attached to the free end.
a) Does the rubber band used exhibit Hooke's Law behavior? Why or why not?
b) Does the spring used exhibit Hooke's Law behavior ? Why or why not?
c) Simple Harmonic Motion is oscillatory motion of a system under the influence of a linear restoring force. Would you expect Simple Harmonic Motion for your rubber band system if it is set to oscillate? Would you expect simple harmonic motion for you spring system? Explain.
d) Consider a spin-block that does undergo simple harmonic motion. Where in its motion is the speed of the block the maximum? Where in its motion is the acceleration of the block at maximum? At what point in its motion is the force of the spring the greatest?
e) Why would you expect a non 0 % difference between the k determined from Hooke's law and the k determined from the simple harmonic timing measurements?
f) Write the general formula for the position of the block as a function of time. Write the general formula for the velocity of the block as a function of time. Write the general formula for the acceleration of the block as a function of time. Write the general formula for the force exerted on the block by the spring as a function of time. Write the formula for the Mechanical Energy for the spring block system.
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Only Parts d, e and f
Hooke's Law represents a linear restoring force where an elastic...
Hooke's Law represents a linear restoring force where an elastic system is displaced from equilibrium. In...
Hooke's Law represents a linear restoring force where an elastic system is displaced from equilibrium. In an experiment a rubber band and a spring were placed in a vertical position and a series of having Masses were attached to the free end. a) Does the rubber band used exhibit Hooke's Law behavior? Why or why not? b) Does the spring used exhibit Hooke's Law behavior ? Why or why not? c) Simple Harmonic Motion is oscillatory motion of a system...
s Law for this (F--ks): Where F is the spring's restoring force; k is the spring...
s Law for this (F--ks): Where F is the spring's restoring force; k is the spring constant; and s is the stretch. The negative sign means the spring's restoring force is opposite the stretch direction. You have a plot from weight IN] versus stretch [m). The data forms a linear trend y 3.662x+1,67. How much will the spring stretch if 51.7 grams is hung on the spring? Answer in centimeters with three significant figures or N/A if not enough information...
Use Hooke's Law for this (F = - k s ): Where F is the spring's...
Use Hooke's Law for this (F = - k s ): Where F is the spring's restoring force; k is the spring constant; and s is the stretch. The negative sign means the spring's restoring force is opposite the stretch direction. You have a plot from weight [N] versus stretch [m]. The data forms a linear trend y = 3.662 * x + 1.67. How much will the spring stretch if 51.7 grams is hung on the spring? Answer in...
simple harmonic motion If you apply Newton's Second Law to a linear restoring force, you obtain...
simple harmonic motion
If you apply Newton's Second Law to a linear restoring force, you obtain d x dt Determine if the following function is a solution to the above differential equation. x(t)- Ae wherei--1 ieot
A spring is found to not obey Hooke's law. It exerts a restoring force F(x) =-ax-...
A spring is found to not obey Hooke's law. It exerts a restoring force F(x) =-ax- 2 N if it stretched or compressed, where α = 60 N/m and β 18.0 Nm2/3. The mass of the spring is negligible. (a) Calculate the work function W(x) for the spring. Let U=0 when x=0. (b) An object of mass 0.900 kg on a horizontal surface is attached to this spring. The surface provides a friction force that is dependent on distance Fr(x)2x2...
I don't understand 1a also need help with b. Can you please explain in detail. Springs...
I don't understand 1a also need help with b. Can you please
explain in detail.
Springs and Harmonic Motion Restoring forces that follow respect the form of Hooke's Law lead to simple harmonic motion. Everyday items, such as springs, exhibit this behavior. More fundamentally, many important physical systems can be modeled as being spring-like (e.g. molecular bonds), which makes harmonic motion the simplest model of motion that is still broadly applicable and easy to generalize.. A position vs. time graph...
PART A: WARM-UP QUESTIONS T. The graphs below show the magnitude, F, of the force exerted...
PART A: WARM-UP QUESTIONS T. The graphs below show the magnitude, F, of the force exerted by a spring as a function of the distance, x, the spring has been stretched. For which one of the graphs does the spring obey Hooke's law? b) c) (P 2. The figure shows a graph of the position x as a function of time t for a system undergoing simple harmonic motion. Which one of the following graphs represents the velocity of this...
Consider a mass m suspended from a massless spring that obeys Hooke's Law (i.e. the force...
Consider a mass m suspended from a massless spring that obeys Hooke's Law (i.e. the force required to stretch or compress it is proportional to the distance stretched/compressed). The kinetic energy T of the system is mv2/2, where v is the velocity of the mass, and the potential energy V of the system is kr-/2, where k is the spring constant and x is the displacement of the mass from its gravitational equilibrium position. Using Lagrange's equations for mechanics (with...
51 A Block-Spring System A 320-g block connected to a light spring for which the force...
51 A Block-Spring System A 320-g block connected to a light spring for which the force constant is 5.30 N/m is free to oscillate on a frictionless, horizontal surface. The block is displaced 5.10 cm from equilibrium and released from rest as in the figure. (A) Find the period of its motion. (B) Determine the maximum speed of the block. (C) What is the maximum acceleration of the block? (D) Express the position, velocity, and acceleration as functions of time...
Hooke's Law states that the length L of a spring is a linear function of the force F applied to it. (See the figure below and Example 6.92.) Accordingly, there are constants a and b such that The...
Hooke's Law states that the length L of a spring is a linear function of the force F applied to it. (See the figure below and Example 6.92.) Accordingly, there are constants a and b such that The table below shows the results of attaching various weights to a spring. F(oz) 2 468 L(in) 810.8 12.7 14.8 (a) Determine the constants a and b by finding the least squares approximating line for these data. What does a represent? a represents...
s Law for this (F--ks): Where F is the spring's restoring force; k is the spring constant; and s is the stretch. The negative sign means the spring's restoring force is opposite the stretch direction. You have a plot from weight IN] versus stretch [m). The data forms a linear trend y 3.662x+1,67. How much will the spring stretch if 51.7 grams is hung on the spring? Answer in centimeters with three significant figures or N/A if not enough information...
simple harmonic motion
If you apply Newton's Second Law to a linear restoring force, you obtain d x dt Determine if the following function is a solution to the above differential equation. x(t)- Ae wherei--1 ieot
A spring is found to not obey Hooke's law. It exerts a restoring force F(x) =-ax- 2 N if it stretched or compressed, where α = 60 N/m and β 18.0 Nm2/3. The mass of the spring is negligible. (a) Calculate the work function W(x) for the spring. Let U=0 when x=0. (b) An object of mass 0.900 kg on a horizontal surface is attached to this spring. The surface provides a friction force that is dependent on distance Fr(x)2x2...
I don't understand 1a also need help with b. Can you please
explain in detail.
Springs and Harmonic Motion Restoring forces that follow respect the form of Hooke's Law lead to simple harmonic motion. Everyday items, such as springs, exhibit this behavior. More fundamentally, many important physical systems can be modeled as being spring-like (e.g. molecular bonds), which makes harmonic motion the simplest model of motion that is still broadly applicable and easy to generalize.. A position vs. time graph...
PART A: WARM-UP QUESTIONS T. The graphs below show the magnitude, F, of the force exerted by a spring as a function of the distance, x, the spring has been stretched. For which one of the graphs does the spring obey Hooke's law? b) c) (P 2. The figure shows a graph of the position x as a function of time t for a system undergoing simple harmonic motion. Which one of the following graphs represents the velocity of this...
Consider a mass m suspended from a massless spring that obeys Hooke's Law (i.e. the force required to stretch or compress it is proportional to the distance stretched/compressed). The kinetic energy T of the system is mv2/2, where v is the velocity of the mass, and the potential energy V of the system is kr-/2, where k is the spring constant and x is the displacement of the mass from its gravitational equilibrium position. Using Lagrange's equations for mechanics (with...
51 A Block-Spring System A 320-g block connected to a light spring for which the force constant is 5.30 N/m is free to oscillate on a frictionless, horizontal surface. The block is displaced 5.10 cm from equilibrium and released from rest as in the figure. (A) Find the period of its motion. (B) Determine the maximum speed of the block. (C) What is the maximum acceleration of the block? (D) Express the position, velocity, and acceleration as functions of time...
Hooke's Law states that the length L of a spring is a linear function of the force F applied to it. (See the figure below and Example 6.92.) Accordingly, there are constants a and b such that The table below shows the results of attaching various weights to a spring. F(oz) 2 468 L(in) 810.8 12.7 14.8 (a) Determine the constants a and b by finding the least squares approximating line for these data. What does a represent? a represents...
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