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mgh 3. In this question you will do some algebra to determine two relations that you...
Please help! Equation 11 and 3 are posted below the main picture! Rotational Mechanics Pre-Lab Assignment...
Please help! Equation 11 and 3 are posted below the main
picture!
Rotational Mechanics Pre-Lab Assignment (1 point) 1. Consider a solid sphere and a solid disk with the same radius and the same mass. Explain why the solid disk has a greater moment of inertia than the solid sphere, even though it has the same overall mass and radius. 2. Calculate the moment of inertia for a solid cylinder with a mass of 100g and a radius of 4.0...
Darcel and Chandra are sitting in the park after physics class, and they notice some children rolling various objects do...
Darcel and Chandra are sitting in the park after physics class,
and they notice some children rolling various objects down a slight
incline in the sidewalk. Darcel is curious how the masses and
shapes of the objects affect their motion, and Chandra says that it
might be fun to think about the energy of motion associated with
rolling objects. The friends decide to use the simulation to
explore the motion and energies of various objects rolling down an
incline.
They...
Hi could you check my work and make sure I did this properly. I think I...
Hi could you check my work and make sure I did this properly.
I think I did something wrong because on letter E shouldn’t I came
up with the same answer as I did for letter C. Please help.
PHYS 201 Fall 2017 19- Rigid Body Rotali Model: For a single (point) object travelling around a circle or radius r with angular ve its kinetic energy is We define the moment of inertia I (sometimes called rotational inertia) of this...
Could you do question C both parts i and ii? Thank you!! Pulley This problem revisits...
Could you do question C both parts i and ii?
Thank you!!
Pulley This problem revisits the "falling-spools experiment" from the tutorial Dynamics of rigid bodies. The apparatus shown at right consists of two identical spools connected by an inextensible thread of negligible inertia that runs over an ideal pulley. The thread is wrapped around spool A many times, but it is attached to a fixed point on spool B, so that spool B will not rotate. The spools are...
There are two graphs that needs to be made in this lab: 1. Total Energy Vs...
There are two graphs that needs to be made in this lab:
1. Total Energy Vs time with m = 20g
2. Total Energy Vs time with m = 40g
A) Explain the nature of the plots .(Linear or non
linear?) The expected slope is zero in both cases. Why? Explain
with the use of law of conservation of energy. What is the
significance of the intercept?
B) Suppose you drew the Kinetic Energy Vs potential
Energy graph: The expected...
answers pls 1. Determine whether the statements below are true or false: a. [4 points) Two...
answers pls
1. Determine whether the statements below are true or false: a. [4 points) Two carts move in the same direction along a frictionless track, each acted upon by the same constant impulse. If Cart 1 has the twice the mass of Cart 2, then Cart 2 will have the greater change in linear momentum. b. [4 points) Any force component that causes a centripetal acceleration cannot change the translational kinetic energy of the object. c. [4 points) A...
Procedure: Materials: 1. apparatus 2. 2 pieces of metal track 3. plastic or metal ball 4....
Procedure: Materials: 1. apparatus 2. 2 pieces of metal track 3. plastic or metal ball 4. timer 5. meter stick 6. micrometer 7. 2 photogates Assemble your ramp as shown in Figure (1) in the next page. Then set up photogates in location 2 and 3. Measure the diameter (in m) of the metal balls (you will need it for speed calculations). Then, measure the weight (mass) of the ball (in kg). To have a better measurement of the time,...
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...
Parallel Axis Theorem: I = ICM + Md Kinetic Energy: K = 2m202 Gravitational Potential Energy:...
Parallel Axis Theorem: I = ICM + Md Kinetic Energy: K = 2m202 Gravitational Potential Energy: AU = mgay Conservation of Mechanical Energy: 2 mv2 + u = žmo+ U Rotational Work: W = TO Rotational Power: P = TO Are Length (angle in radians, where 360º = 2a radians): S = re = wt (in general, not limited to constant acceleration) Tangential & angular speeds: V = ro Frequency & Period: Work-Energy Theorem (rotational): Weet = {102 - 10...
some context Problem 3: Use simple kinetic theory of gases discussed in section 1.3.2 as well...
some context
Problem 3: Use simple kinetic theory of gases discussed in section 1.3.2 as well as Fourer's law of condustion to prove: 2 R373 D11 = 3113/202pm Dal We were unable to transcribe this imageof a nes. the xed the led negligible The following assumptions about the structure of the cases are made in order to investigate the statistical rules of the random motion of the molecules: The size of the gas molecules is negligible compared with the distance...
Please help! Equation 11 and 3 are posted below the main
picture!
Rotational Mechanics Pre-Lab Assignment (1 point) 1. Consider a solid sphere and a solid disk with the same radius and the same mass. Explain why the solid disk has a greater moment of inertia than the solid sphere, even though it has the same overall mass and radius. 2. Calculate the moment of inertia for a solid cylinder with a mass of 100g and a radius of 4.0...
Darcel and Chandra are sitting in the park after physics class,
and they notice some children rolling various objects down a slight
incline in the sidewalk. Darcel is curious how the masses and
shapes of the objects affect their motion, and Chandra says that it
might be fun to think about the energy of motion associated with
rolling objects. The friends decide to use the simulation to
explore the motion and energies of various objects rolling down an
incline.
They...
Hi could you check my work and make sure I did this properly.
I think I did something wrong because on letter E shouldn’t I came
up with the same answer as I did for letter C. Please help.
PHYS 201 Fall 2017 19- Rigid Body Rotali Model: For a single (point) object travelling around a circle or radius r with angular ve its kinetic energy is We define the moment of inertia I (sometimes called rotational inertia) of this...
Could you do question C both parts i and ii?
Thank you!!
Pulley This problem revisits the "falling-spools experiment" from the tutorial Dynamics of rigid bodies. The apparatus shown at right consists of two identical spools connected by an inextensible thread of negligible inertia that runs over an ideal pulley. The thread is wrapped around spool A many times, but it is attached to a fixed point on spool B, so that spool B will not rotate. The spools are...
There are two graphs that needs to be made in this lab:
1. Total Energy Vs time with m = 20g
2. Total Energy Vs time with m = 40g
A) Explain the nature of the plots .(Linear or non
linear?) The expected slope is zero in both cases. Why? Explain
with the use of law of conservation of energy. What is the
significance of the intercept?
B) Suppose you drew the Kinetic Energy Vs potential
Energy graph: The expected...
answers pls
1. Determine whether the statements below are true or false: a. [4 points) Two carts move in the same direction along a frictionless track, each acted upon by the same constant impulse. If Cart 1 has the twice the mass of Cart 2, then Cart 2 will have the greater change in linear momentum. b. [4 points) Any force component that causes a centripetal acceleration cannot change the translational kinetic energy of the object. c. [4 points) A...
Procedure: Materials: 1. apparatus 2. 2 pieces of metal track 3. plastic or metal ball 4. timer 5. meter stick 6. micrometer 7. 2 photogates Assemble your ramp as shown in Figure (1) in the next page. Then set up photogates in location 2 and 3. Measure the diameter (in m) of the metal balls (you will need it for speed calculations). Then, measure the weight (mass) of the ball (in kg). To have a better measurement of the time,...
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...
Parallel Axis Theorem: I = ICM + Md Kinetic Energy: K = 2m202 Gravitational Potential Energy: AU = mgay Conservation of Mechanical Energy: 2 mv2 + u = žmo+ U Rotational Work: W = TO Rotational Power: P = TO Are Length (angle in radians, where 360º = 2a radians): S = re = wt (in general, not limited to constant acceleration) Tangential & angular speeds: V = ro Frequency & Period: Work-Energy Theorem (rotational): Weet = {102 - 10...
some context
Problem 3: Use simple kinetic theory of gases discussed in section 1.3.2 as well as Fourer's law of condustion to prove: 2 R373 D11 = 3113/202pm Dal We were unable to transcribe this imageof a nes. the xed the led negligible The following assumptions about the structure of the cases are made in order to investigate the statistical rules of the random motion of the molecules: The size of the gas molecules is negligible compared with the distance...
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