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2) The figure shows the potential energy diagram of a particle oscillating on a spring. a)...
(Figure 1) shows the potential-energy diagram and the total energy line of a particle oscillating on a spring
(Figure 1) shows the potential-energy diagram and the total energy line of a particle oscillating on a spring. where r represents the length of the spring. Part C What is the particle's maximum kinetic energy? Part D What will be the turning points if the particle's total energy is doubled?
Energy (J) 20 PE 15 10 TE 5 0 Tx(cm) 12 16 20 24 28 The...
Energy (J) 20 PE 15 10 TE 5 0 Tx(cm) 12 16 20 24 28 The energy diagram above describes a mass of 25 grams oscillating in simple harmonic motion on a spring. The spring's equilibrium length is The amplitude of the motion is The spring constant is J/m2 The maximum kinetic energy of the particle is J. It has this kinetic energy as it passes through x = cm.
Energy (J) 20 PE 15 10 TE 5 0 Tx(cm) 12 16 20 24 28 The...
Energy (J) 20 PE 15 10 TE 5 0 Tx(cm) 12 16 20 24 28 The energy diagram above describes a mass of 25 grams oscillating in simple harmonic motion on a spring. The spring's equilibrium length is The amplitude of the motion is The spring constant is J/m2 The maximum kinetic energy of the particle is J. It has this kinetic energy as it passes through x = cm.
The figure shows a plot of potential energy U versus position x of a 0.280 kg particle that can t...
The figure shows a plot of potential energy U versus
position x of a 0.280 kg particle that can travel only
along an x axis under the influence of a conservative
force. The graph has these values: UA
= 9.00 J, UC = 20.0 J and
UD = 24.0 J. The particle is released
at the point where U forms a “potential hill” of “height”
UB = 12.0 J, with kinetic energy 5.00
J. What is the speed of the...
A particle is moving to the right with initial kinetic energy To, subject to a force...
A particle is moving to the right with initial kinetic energy To, subject to a force F(z)k function U(x) for this force ; (b) the kinetic energy and (c) the total energy of the particle as a function of its position; (d) find the turning points of the motion and the condition the total energy of the particle must satisfy if its motion is to exhibit turning points. (e) Sketch the potential, kinetic and total energy function (you can use...
Up x (m) Figure 5 Figure 6 Figure 6 above shows a plot of potential energy...
Up x (m) Figure 5 Figure 6 Figure 6 above shows a plot of potential energy U versus position x of a 0.200 kg particle that can travel only along an x axis under the influence of a conservative force. The graph has these values: UA 9.00 J, Uc-20.00 J, and UD- 24.00 J. The particle is released at the point where U forms a "potential hill" of "height" UB 12.00 J, with kinetic energy of 4.00 J. If it...
A particle moves and has a potential energy that can be described by the equation U(x)...
A particle moves and has a potential energy that can be described by the equation U(x) = 4 sin(2 x) where U(x) is in J. The total energy of the particle is E_tot = 2 J. Make a well-labelled graph of U(x)vs. x from x = 0 to x = pi. Draw a line corresponding to E_tot on your diagram. Assume the particle is moving in the positive x direction. Where is the particle speeding up? Make sure you solve...
Question 7 The figure shows a plot of potential energy U versus position x of a...
Question 7 The figure shows a plot of potential energy U versus position x of a 0.220 kg particle that can travel only along an x axis under the influence of a conservative force. The graph has these values: UA = 9.00 J, Uc = 20.0 J and UD-24.0 J. The particle is released at the point where U forms a "potential hiir of "height" UB-12.0J, with kinetic energy 5.00 J. What is the speed of the particle at (a)x...
24&25 please The figure below shows the potential energy function U (r)for a particle moving along...
24&25 please
The figure below shows the potential energy function U (r)for a particle moving along an axis labeled by the coordinate r. Values for energy and distance are in joules (j) millimeters (mm), respectively. The total energy of this particle is E = -4 J. Initially, the particle is at r = 1 mm and moving to the right (direction of increasing r) Which of the following statements best describes the subsequent motion of this particle? a. The particle...
For the energy diagram above, what are the turning points of the motion? Explain please! Energy...
For the energy diagram above, what are the turning points of the
motion? Explain please!
Energy (J) 20 PE 15- 10 TE 5 0 x (cm) 12 16 20 24 28
Energy (J) 20 PE 15 10 TE 5 0 Tx(cm) 12 16 20 24 28 The energy diagram above describes a mass of 25 grams oscillating in simple harmonic motion on a spring. The spring's equilibrium length is The amplitude of the motion is The spring constant is J/m2 The maximum kinetic energy of the particle is J. It has this kinetic energy as it passes through x = cm.
Energy (J) 20 PE 15 10 TE 5 0 Tx(cm) 12 16 20 24 28 The energy diagram above describes a mass of 25 grams oscillating in simple harmonic motion on a spring. The spring's equilibrium length is The amplitude of the motion is The spring constant is J/m2 The maximum kinetic energy of the particle is J. It has this kinetic energy as it passes through x = cm.
The figure shows a plot of potential energy U versus
position x of a 0.280 kg particle that can travel only
along an x axis under the influence of a conservative
force. The graph has these values: UA
= 9.00 J, UC = 20.0 J and
UD = 24.0 J. The particle is released
at the point where U forms a “potential hill” of “height”
UB = 12.0 J, with kinetic energy 5.00
J. What is the speed of the...
A particle is moving to the right with initial kinetic energy To, subject to a force F(z)k function U(x) for this force ; (b) the kinetic energy and (c) the total energy of the particle as a function of its position; (d) find the turning points of the motion and the condition the total energy of the particle must satisfy if its motion is to exhibit turning points. (e) Sketch the potential, kinetic and total energy function (you can use...
Up x (m) Figure 5 Figure 6 Figure 6 above shows a plot of potential energy U versus position x of a 0.200 kg particle that can travel only along an x axis under the influence of a conservative force. The graph has these values: UA 9.00 J, Uc-20.00 J, and UD- 24.00 J. The particle is released at the point where U forms a "potential hill" of "height" UB 12.00 J, with kinetic energy of 4.00 J. If it...
A particle moves and has a potential energy that can be described by the equation U(x) = 4 sin(2 x) where U(x) is in J. The total energy of the particle is E_tot = 2 J. Make a well-labelled graph of U(x)vs. x from x = 0 to x = pi. Draw a line corresponding to E_tot on your diagram. Assume the particle is moving in the positive x direction. Where is the particle speeding up? Make sure you solve...
Question 7 The figure shows a plot of potential energy U versus position x of a 0.220 kg particle that can travel only along an x axis under the influence of a conservative force. The graph has these values: UA = 9.00 J, Uc = 20.0 J and UD-24.0 J. The particle is released at the point where U forms a "potential hiir of "height" UB-12.0J, with kinetic energy 5.00 J. What is the speed of the particle at (a)x...
24&25 please
The figure below shows the potential energy function U (r)for a particle moving along an axis labeled by the coordinate r. Values for energy and distance are in joules (j) millimeters (mm), respectively. The total energy of this particle is E = -4 J. Initially, the particle is at r = 1 mm and moving to the right (direction of increasing r) Which of the following statements best describes the subsequent motion of this particle? a. The particle...
For the energy diagram above, what are the turning points of the
motion? Explain please!
Energy (J) 20 PE 15- 10 TE 5 0 x (cm) 12 16 20 24 28
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