Experiment: The force required to stretch an elastic is measured, along with the displacement of the...
Experiment: The force required to stretch an elastic is measured, along with the displacement of the elastic. The elastic is then used to launch a cart on a low friction track and the motion of the cart is analyzed. The experiment is repeated for a total of 5 trials. I need to draw a graph of kinetic energy of cart as a function of energy transferred to elastic. The energy transferred to elastic is elastic potential energy, given by E=1/2Fx.
Q. How should the graph look like? The value for kinetic energy should be in the y axis but what should be in the x axis? Is it elastic potential energy (E) calculated by 1/2Fx? If it is, am I using F and x information from the experiment to calculate this elastic potential energy?
If you can, could you please draw out how the graph should look like?
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Experiment: The force required to stretch an elastic is
measured, along with the displacement of the...
Experiment: The force required to stretch an elastic is measured, along with the displacement of the...
Experiment: The force required to stretch an elastic is measured, along with the displacement of the elastic. The elastic is then used to launch a cart on a low friction track and the motion of the cart is analyzed. The experiment is repeated for a total of 5 trials. 1. If I have to draw the graph of Ek of cart as a function of energy transferred to elastic, what is function of energy transferred to elastic? What does that...
There was an experiment involving the cart and elastic. (Experimental Design: The force required to stretch...
There was an experiment involving the cart and elastic. (Experimental Design: The force required to stretch an elastic is measured, along with the displacement of the elastic. The elastic is then used to launch a cart on a low friction track and the motion of the cart is analyzed. The experiment is repeated for a total of 5 trials.) What is the meaning of the m(slope) of the graph showing kinetic energy of cart as a function of energy transferred...
The graph on the next page shows the displacement of the block as a function of...
The graph on the next page shows the displacement of the block as a function of time (this is the same mass-spring situation as problem 1 but with a different mass). The maximum displacement is 15 cm. (The graph for this exercise is provided at the end of this lab on page 3. For your records, trace your solutions from your completed graphs into your lab notebook, copy your solution, and fasten the copy into your notebook.) a) Ifk 150...
A Friction Experiment During an experiment, a crate is pulled along a rough horizontal surface by a force F⃗ a...
A Friction Experiment
During an experiment, a crate is pulled along a rough horizontal
surface by a force F⃗ and the magnitude of the
acceleration along the x direction, ax ,
is measured.(Figure 1) The vector F⃗ has a component along
the x direction of magnitude Fx . The
experiment is repeated several times, with different values of
Fx each time, while maintaining a constant value
for, Fy , the vertical component of F⃗
.
Part A
Create a plot...
Consider the force-displacement graph for a spring shown. Determine the spring constant, the potential energy stored...
Consider the force-displacement graph for a spring shown. Determine the spring constant, the potential energy stored when the spring is stretched from x = 0 to x = 4.0 cm. the change in the potential energy stored in stretching the spring from x = 1.0 cm to x = 4.0 cm. A cart having a mass M = 180 g on a friction free horizontal surface is accelerated from rest by the launching spring of problem 2. What is the...
Energy of a Tossed Ball In this experiment, we will study energy changes using a Motion...
Energy of a Tossed Ball In this experiment, we will study energy changes using a Motion Detector. OBJECTIVES: • Measure the change in the kinetic and potential energies as a ball moves in free fall. • See how the total energy of the ball changes during free fall. MATERIALS: Computer Lab Pro Logger Pro Vernier Motion Detector Basketball PRELIMINARY QUESTIONS (PHY2048): For each question, consider the free-fall portion of the motion of a ball tossed straight upward, starting just as...
Name, Pre-lab Assignment- Experiment 11 Conservation of Momentum Using the Air Track 1o t becolision ser...
Name, Pre-lab Assignment- Experiment 11 Conservation of Momentum Using the Air Track 1o t becolision ser A,-200 ) is taveling at 3,6 m's and slider B Ms 210 g) is at rest a) (1 pò) What is the total momentum before collision? (Find the momentum of each slider before the collision and then add them together.) b). (I p) After the collision. presume that the sliders move in the same direction with vv m's and vy 3.05 m/s. What is...
You attach a 150 g mass on a spring hung vertically. a. If the spring initially...
You attach a 150 g mass on a spring hung vertically. a. If the spring initially stretches 16 cm when you hang the mass on it, what is the spring constant? b. How long will one oscillation take? The spring is now oriented horizontally and attached to a glider on a frictionless airtrack. The glider also has mass of 150 g. You want to observe the oscillations of this horizontal springmass system in the lab with a motion detector. You...
Unsure on all parts of this question Pre-lab Assignment- Experiment 11 Conservation of Momentum Using the...
Unsure on all parts of this question
Pre-lab Assignment- Experiment 11 Conservation of Momentum Using the Air Track 1. Suppose that before collision, slider A (MA-200 g) is traveling at 3.6 m/s and slider B (Ma 210 g) is at rest. a) (1 pt) What is the total momentum before collision? (Find the momentum of each slider befone the collision and then add them together.) b). (1 pt) After the collision, presume that the sliders move in the same direction...
Test # 5 Verion A 3 A simple pendulum has a period of 3 seconds on...
Test # 5 Verion A 3 A simple pendulum has a period of 3 seconds on earth surface. Find the leng d the pendulum? (Take g as 9.8 m/s) 4 A spring-mass system undergoes simplie hamonic motion bettween tw maimum position and the displacement is defined by x- A Cos ( whene A is the amplitude of oscillation and is the angular frequency E Euibum Postion The graph above is displacement vs Energy Mark points and draw lines connecting the...
The graph on the next page shows the displacement of the block as a function of time (this is the same mass-spring situation as problem 1 but with a different mass). The maximum displacement is 15 cm. (The graph for this exercise is provided at the end of this lab on page 3. For your records, trace your solutions from your completed graphs into your lab notebook, copy your solution, and fasten the copy into your notebook.) a) Ifk 150...
A Friction Experiment
During an experiment, a crate is pulled along a rough horizontal
surface by a force F⃗ and the magnitude of the
acceleration along the x direction, ax ,
is measured.(Figure 1) The vector F⃗ has a component along
the x direction of magnitude Fx . The
experiment is repeated several times, with different values of
Fx each time, while maintaining a constant value
for, Fy , the vertical component of F⃗
.
Part A
Create a plot...
Consider the force-displacement graph for a spring shown. Determine the spring constant, the potential energy stored when the spring is stretched from x = 0 to x = 4.0 cm. the change in the potential energy stored in stretching the spring from x = 1.0 cm to x = 4.0 cm. A cart having a mass M = 180 g on a friction free horizontal surface is accelerated from rest by the launching spring of problem 2. What is the...
Energy of a Tossed Ball In this experiment, we will study energy changes using a Motion Detector. OBJECTIVES: • Measure the change in the kinetic and potential energies as a ball moves in free fall. • See how the total energy of the ball changes during free fall. MATERIALS: Computer Lab Pro Logger Pro Vernier Motion Detector Basketball PRELIMINARY QUESTIONS (PHY2048): For each question, consider the free-fall portion of the motion of a ball tossed straight upward, starting just as...
Name, Pre-lab Assignment- Experiment 11 Conservation of Momentum Using the Air Track 1o t becolision ser A,-200 ) is taveling at 3,6 m's and slider B Ms 210 g) is at rest a) (1 pò) What is the total momentum before collision? (Find the momentum of each slider before the collision and then add them together.) b). (I p) After the collision. presume that the sliders move in the same direction with vv m's and vy 3.05 m/s. What is...
Unsure on all parts of this question
Pre-lab Assignment- Experiment 11 Conservation of Momentum Using the Air Track 1. Suppose that before collision, slider A (MA-200 g) is traveling at 3.6 m/s and slider B (Ma 210 g) is at rest. a) (1 pt) What is the total momentum before collision? (Find the momentum of each slider befone the collision and then add them together.) b). (1 pt) After the collision, presume that the sliders move in the same direction...
Test # 5 Verion A 3 A simple pendulum has a period of 3 seconds on earth surface. Find the leng d the pendulum? (Take g as 9.8 m/s) 4 A spring-mass system undergoes simplie hamonic motion bettween tw maimum position and the displacement is defined by x- A Cos ( whene A is the amplitude of oscillation and is the angular frequency E Euibum Postion The graph above is displacement vs Energy Mark points and draw lines connecting the...
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