Suppose that you set the ramp angle to 30 degrees and found that 200 grams of...
Suppose that you set the ramp angle to 30 degrees and found that 200 grams of disks on the weight hanger were needed in order to balance the cart and its contents. Now suppose that you were to repeat this experiment on the moon (where acceleration of gravity is about 1/5th that of earth's) using the same ramp angle and same cart mass. Would it take the same amount of mass, a greater amount of mass, or a lesser amount of mass on the weight hanger to balance the cart? Why or why not?
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Suppose that you set the ramp angle to 30 degrees and found that
200 grams of...
1. In an experiment where a smart cart moves freely down a ramp, why would it...
1. In an experiment where a smart cart moves freely down a ramp, why would it not be necessary to include friction in a calculation? 2. What would an equation for acceleration look like if you were to include friction? 3. The equation you used for acceleration was a=gsin(theta). Since the experiment was performed at 10 degrees or ess this falls under the small-angle approximation. This means that your acceleration can be approximated to be a=g(theta). Use the small-angle to...
[This experiment used a weight at the end of a string along a track. The track...
[This experiment used a weight at the end of a string along a track. The track had a cart that was attached to the string. Different weights were put at the end of the string that was hanging over the ledge. Multiple trials were done. We took times of how long it took the cart to travel from point A to point B as it was pulled by the weight at the end of the string. Additional trials placed weights...
2. Suppose you did two separate trials with the same mass on both the cart and...
2. Suppose you did two separate trials with the same mass on both the cart and the hanger, but the software reported different values for b. Should one of the runs be rejected? (a) The one with the larger value of b should be rejected. (b) The one with the smaller value of b should be rejected. (c) Neither should be rejected, the value of b has no effect on our results. Applying Newton's second law to a setup like...
4 Situation 1: On Earth, you kick a box with a speed of 2 ms? up...
4 Situation 1: On Earth, you kick a box with a speed of 2 ms? up a smooth ramp that makes a 60° angle with the horizontal. Find the maximum dis- tance the box will travel up the ramp. Then find how long before the box reaches you at the base of the ramp again. 1 Situation 2: Now imagine you are on planet X whose mass is twice that of Earth's but with a radius that is also twice...
Q 7 You set up two oscillating systems, the first is a block hanging off the...
Q 7 You set up two oscillating systems, the first is a block hanging off the bottom of a spring and the second is a pendulum. You adjust the length of the pendulum string so that both systems have the same period here on Earth. Without changing anything about these systems would they have the same period if you took them to the surface of the moon? Explain your answer. Q 8 The acceleration due to gravity at the equator...
or Design Layout References Mailings Review View Help Tell me what you want to do files...
or Design Layout References Mailings Review View Help Tell me what you want to do files from the Internet can contain vituses. Unless you need to edit, it's safer to stay in Protected View Enable Editing Plane Suppose that the block were made to move along the inclined plane upward with uniform velocity by an applied force (F.) parallel to the incline. Derive an equation for the coefficient of kinetic friction for this case in terms of (A free body...
Please do 1a 1b 1d and 1E and show work, thank you! 1.) A ball with mass 5.0 kg is launched upwards towards the east into the air with a speed of 15. m/s at an angle of 30 degrees to the ground....
Please do 1a 1b 1d and 1E and show work, thank you!
1.) A ball with mass 5.0 kg is launched upwards towards the east into the air with a speed of 15. m/s at an angle of 30 degrees to the ground. Note: For this question the motion is fully three-dimensional. Orient your axes so that the positive y-axis points north, the positive X-axis points east, and the positive z-axis points upwards (towards the sky. 1A.) If a gusting...
PRE-LAB 3: Acceleration and Force 1. (3pts) In Part 1, you will repeat your Lab 2...
PRE-LAB 3: Acceleration and Force 1. (3pts) In Part 1, you will repeat your Lab 2 Speeding Up experiment with a focus on forces. . Draw a free-body diagram of the forces acting a. on the cart. otes Draw a free-body diagram of the forces acting on the mass. b. Which forces in the two diagrams are equal? c. oipol 3. (4 pts) We will be using the same cart and motion sensor setup we used in last lab: Force...
You are trying to figure out how fast your BB gun can shoot. So you set...
You are trying to figure out how fast your BB gun can shoot. So you set up a block-spring system. By firing the BB into the block, the spring gets compressed. Specifics: Mass of BB = 8 grams, mass of block = 4.0 kg, spring compression = 3.7 cm, spring constant = 2500 N/m. Calculate the speed of the BB. 1 440 m/s 2 520 m/s 3 500 m/s 4 460 m/s 5 480 m/s Question 14 -- /5 What...
1) . You repeat the same experiment that you did in the lab with the force...
1) . You repeat the same experiment that you did in the lab with the force table using two 100 g masses at 135° and 225°. (a) Complete the table below. Force Mass (kg) Magnitude of Force (N) Angle (degrees) Ax (N) Ay (N) F1 0.100 135 F2 0.100 225 (b) Determine (by calculation) the value of F3 needed to balance the two forces F1 and F2. F3x = F3y = magnitude F3 = direction θ3 = ° counterclockwise from...
2. Suppose you did two separate trials with the same mass on both the cart and the hanger, but the software reported different values for b. Should one of the runs be rejected? (a) The one with the larger value of b should be rejected. (b) The one with the smaller value of b should be rejected. (c) Neither should be rejected, the value of b has no effect on our results. Applying Newton's second law to a setup like...
4 Situation 1: On Earth, you kick a box with a speed of 2 ms? up a smooth ramp that makes a 60° angle with the horizontal. Find the maximum dis- tance the box will travel up the ramp. Then find how long before the box reaches you at the base of the ramp again. 1 Situation 2: Now imagine you are on planet X whose mass is twice that of Earth's but with a radius that is also twice...
Q 7 You set up two oscillating systems, the first is a block hanging off the bottom of a spring and the second is a pendulum. You adjust the length of the pendulum string so that both systems have the same period here on Earth. Without changing anything about these systems would they have the same period if you took them to the surface of the moon? Explain your answer. Q 8 The acceleration due to gravity at the equator...
or Design Layout References Mailings Review View Help Tell me what you want to do files from the Internet can contain vituses. Unless you need to edit, it's safer to stay in Protected View Enable Editing Plane Suppose that the block were made to move along the inclined plane upward with uniform velocity by an applied force (F.) parallel to the incline. Derive an equation for the coefficient of kinetic friction for this case in terms of (A free body...
Please do 1a 1b 1d and 1E and show work, thank you!
1.) A ball with mass 5.0 kg is launched upwards towards the east into the air with a speed of 15. m/s at an angle of 30 degrees to the ground. Note: For this question the motion is fully three-dimensional. Orient your axes so that the positive y-axis points north, the positive X-axis points east, and the positive z-axis points upwards (towards the sky. 1A.) If a gusting...
PRE-LAB 3: Acceleration and Force 1. (3pts) In Part 1, you will repeat your Lab 2 Speeding Up experiment with a focus on forces. . Draw a free-body diagram of the forces acting a. on the cart. otes Draw a free-body diagram of the forces acting on the mass. b. Which forces in the two diagrams are equal? c. oipol 3. (4 pts) We will be using the same cart and motion sensor setup we used in last lab: Force...
You are trying to figure out how fast your BB gun can shoot. So you set up a block-spring system. By firing the BB into the block, the spring gets compressed. Specifics: Mass of BB = 8 grams, mass of block = 4.0 kg, spring compression = 3.7 cm, spring constant = 2500 N/m. Calculate the speed of the BB. 1 440 m/s 2 520 m/s 3 500 m/s 4 460 m/s 5 480 m/s Question 14 -- /5 What...
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