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2) The value of b has no effect
on results. So neither should be rejected.
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2. Suppose you did two separate trials with the same mass on both the cart and...
Lab Activity: Newton's Second Law The goal of this exercise is to examine a system of...
Lab Activity: Newton's Second Law The goal of this exercise is to examine a system of connected objects and verify that Newton's second law correctly describes the motion. Work through the following sections answering all questions and filling in all blanks and charts directly on these sheets. Make sure that you follow the instructions carefully. Apparatus The setup consists of a cart on a track, a smart pulley, a hanger, various masses, and a computer. The motion of the cart...
6. When the system is in motion how does the acceleration of the hanger compare to...
6. When the system is in motion how does the acceleration of the hanger compare to the acceleration of the cart? (a) The acceleration of the hanger is equal to the acceleration of the cart. (b) The acceleration of the hanger is less than the acceleration of the cart. (c) The acceleration of the hanger is greater than the acceleration of the cart. (d) It depends on the trial. 7. When the system is in motion how does the tension...
Setup 1. For Run #1 use the arrangement described above (one 20-g mass on the mass...
Setup 1. For Run #1 use the arrangement described above (one 20-g mass on the mass hanger, weigh the cart and the mass hanger with a 20-g mass, and enter these values in Table 1 2. Pull the cart about 25 cm from the endstop. Click Start. Release the cart Stop the cart before it hits the pulley and click Stop 3. For Run #2 add a 250-g mass to the cart Weigh the total mass of the cart plus...
4. Newton's Third Law You will now attempt to measure the forces objects exert on each...
4. Newton's Third Law You will now attempt to measure the forces objects exert on each other when the objects interact and the effects those forces have on the motion of the objects. In this section, you will use both force sensors on two carts and conduct a series of force measurements during (gentle) tug-of-war tests. 4.1: Suppose you have two carts, A and B. Both are made of the same material, and B is more massive (heavier) than A....
1. In a classical Atwood's machine setup (like this lab), what are the forces that will...
1. In a classical Atwood's machine setup (like this lab), what
are the forces that will be discussed?
a)The weight of the masses on each pulley and the tension in
the string
b)
The weight of the masses on each pulley.
c)
The
Mtotal times g and the tension on the string.
d)
The masses on each pulley and the tension in the string
2. What's the total mass of the system in our case of the
Atwood's machine?
a)...
i dont get it, how do i answer this these questions are just for run 2...
i dont get it, how do i answer this
these questions are just for run 2
2. Find the tangential acceleration of a point on the perimeter of the small pulley. 3. Find the tangential acceleration of a point on the perimeter of the large disk. DISK 7 PULLEY /R Mo - pepulley 440 10. You will conduct 6 runs as specified below. Total Mass (Including Hanger) Pulley Radius Rotating Disk(s) Run # m=.015 kg m= .020 kg ri (small)...
I need questions 8-11. Thank you. comp Atwood's Machine Equipment Qty Equipment 1 Mass and Hanger...
I need questions 8-11. Thank you.
comp Atwood's Machine Equipment Qty Equipment 1 Mass and Hanger Set 1 Photogate with Pully Photogate with Pully 1 Universal Table Clamn 1 Large Rod 1 Small Rod 1 Double rod Clamp I 1 String Part Number ME-8979 ME-6838A ME-9376B ME-8736 ME-8977 ME-9873 Background Newton's 2 Law (NSL) states that the acceleration a mass experiences is proportional to the net force applied to it, and inversely proportional to its inertial mass la t )....
the question is in last picture. i provided the lab content... I need guidance. thank you....
the question is in last picture. i provided the lab content...
I need guidance. thank you.
INVESTIGATION 10 ROTATIONAL MOTION OBJECTIVE To determine the moment of inertia I of a heavy composite disk by plotting measured values of torque versus angular acceleration. THEORY Newton's second law states that for translational motion (motion in a straight line) an unbalanced force on an object results in an acceleration which is proportional to the mass of the object. This means that the heavier...
Problem 6. v- (for both) A small block with mass m is sitting on a large...
Problem 6. v- (for both) A small block with mass m is sitting on a large block of mass M that is sloped so that the small block can slide down the larger block. There is no friction between the two blocks, no friction between the large block and the table, and no drag force. The center of mass of the small block is located a height H above where it would be if it were sitting on the table...
Sample 2 97.79 g 102.95 g 101.15 g Sample 1 (a) Mass of 98.32 g crucible...
Sample 2 97.79 g 102.95 g 101.15 g Sample 1 (a) Mass of 98.32 g crucible + lid (b) Mass of crucible, lid + 103.76 g KCIO3 (c) Mass of crucible, lid + 102.01g residue after 1st heating (d) Mass of crucible, lid + residue after 101.69 g 2nd heating (e) Mass of crucible, lid + 101.68 g residue after 3rd heating 101.05 g 101.01 g Data Analysis .Use your data to determine the experimental mass percent of oxygen in...
Lab Activity: Newton's Second Law The goal of this exercise is to examine a system of connected objects and verify that Newton's second law correctly describes the motion. Work through the following sections answering all questions and filling in all blanks and charts directly on these sheets. Make sure that you follow the instructions carefully. Apparatus The setup consists of a cart on a track, a smart pulley, a hanger, various masses, and a computer. The motion of the cart...
6. When the system is in motion how does the acceleration of the hanger compare to the acceleration of the cart? (a) The acceleration of the hanger is equal to the acceleration of the cart. (b) The acceleration of the hanger is less than the acceleration of the cart. (c) The acceleration of the hanger is greater than the acceleration of the cart. (d) It depends on the trial. 7. When the system is in motion how does the tension...
Setup 1. For Run #1 use the arrangement described above (one 20-g mass on the mass hanger, weigh the cart and the mass hanger with a 20-g mass, and enter these values in Table 1 2. Pull the cart about 25 cm from the endstop. Click Start. Release the cart Stop the cart before it hits the pulley and click Stop 3. For Run #2 add a 250-g mass to the cart Weigh the total mass of the cart plus...
4. Newton's Third Law You will now attempt to measure the forces objects exert on each other when the objects interact and the effects those forces have on the motion of the objects. In this section, you will use both force sensors on two carts and conduct a series of force measurements during (gentle) tug-of-war tests. 4.1: Suppose you have two carts, A and B. Both are made of the same material, and B is more massive (heavier) than A....
1. In a classical Atwood's machine setup (like this lab), what
are the forces that will be discussed?
a)The weight of the masses on each pulley and the tension in
the string
b)
The weight of the masses on each pulley.
c)
The
Mtotal times g and the tension on the string.
d)
The masses on each pulley and the tension in the string
2. What's the total mass of the system in our case of the
Atwood's machine?
a)...
i dont get it, how do i answer this
these questions are just for run 2
2. Find the tangential acceleration of a point on the perimeter of the small pulley. 3. Find the tangential acceleration of a point on the perimeter of the large disk. DISK 7 PULLEY /R Mo - pepulley 440 10. You will conduct 6 runs as specified below. Total Mass (Including Hanger) Pulley Radius Rotating Disk(s) Run # m=.015 kg m= .020 kg ri (small)...
I need questions 8-11. Thank you.
comp Atwood's Machine Equipment Qty Equipment 1 Mass and Hanger Set 1 Photogate with Pully Photogate with Pully 1 Universal Table Clamn 1 Large Rod 1 Small Rod 1 Double rod Clamp I 1 String Part Number ME-8979 ME-6838A ME-9376B ME-8736 ME-8977 ME-9873 Background Newton's 2 Law (NSL) states that the acceleration a mass experiences is proportional to the net force applied to it, and inversely proportional to its inertial mass la t )....
the question is in last picture. i provided the lab content...
I need guidance. thank you.
INVESTIGATION 10 ROTATIONAL MOTION OBJECTIVE To determine the moment of inertia I of a heavy composite disk by plotting measured values of torque versus angular acceleration. THEORY Newton's second law states that for translational motion (motion in a straight line) an unbalanced force on an object results in an acceleration which is proportional to the mass of the object. This means that the heavier...
Problem 6. v- (for both) A small block with mass m is sitting on a large block of mass M that is sloped so that the small block can slide down the larger block. There is no friction between the two blocks, no friction between the large block and the table, and no drag force. The center of mass of the small block is located a height H above where it would be if it were sitting on the table...
Sample 2 97.79 g 102.95 g 101.15 g Sample 1 (a) Mass of 98.32 g crucible + lid (b) Mass of crucible, lid + 103.76 g KCIO3 (c) Mass of crucible, lid + 102.01g residue after 1st heating (d) Mass of crucible, lid + residue after 101.69 g 2nd heating (e) Mass of crucible, lid + 101.68 g residue after 3rd heating 101.05 g 101.01 g Data Analysis .Use your data to determine the experimental mass percent of oxygen in...
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