Suppose the disk in the figure below has a mass of 54.0 g and an initial velocity of 29.0 m/s when it strikes and adheres to one end of thin stick. The stick is 1.15 m long and 2.10 kg and is free to have translational motion as well as rotational motion. What is the angular velocity of the two after the collision?
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Suppose the disk in the figure below has a mass of 54.0 g and an
initial...
pls draw Free body diagram System (Ang GUARD SMEAR HIGHLIGHTER Shonnio A 2.0-kg disk traveling at...
pls draw Free body diagram
System (Ang GUARD SMEAR HIGHLIGHTER Shonnio A 2.0-kg disk traveling at 3.0 m/s strikes a 1.0-kg stick of length 4.0 m that is lying flat on nearly frictionless ice as shown in the overhead view of Figure 11.12a. The disk strikes at the endpoint of the stick Assume the collision is elastic and the disk does not deviate from its original line of motion. Find the translational speed of the disk, the translational speed of...
Adisk slides toward a motionless stick on a frictionless surface (figure below). The disk strikes and...
Adisk slides toward a motionless stick on a frictionless surface (figure below). The disk strikes and adheres to the stick and they rotate together pivoting around the rail. Angular momentum is conserved for this inelastic collision because the surface is frictionless and the unbalanced external force at the tail exerts no torque Before M Nal (plot 0.100 m from the il Consideratuation where the disk as a masof 515 (a) What is the angula velocity in rad/s) of the two...
A6.0 kg disk traveling at 9.0 m/s strikes a 7.0 kg stick of length 5.0 m...
A6.0 kg disk traveling at 9.0 m/s strikes a 7.0 kg stick of length 5.0 m that is lying flat on nearly frictionless ice as shown in the overhead view in the figure below. The disk strikes at the endpoint of the stick, at a distance r = 2.5 m from the stick's center. Suppose that the collision is perfectly inelastic so that the disk adheres to the stick at the endpoint at which it strikes. The moment of inertia...
with good explanation. 2. A6.0 kg disk traveling at 9.0 m/s strikes a 7.0 kg stick...
with good explanation.
2. A6.0 kg disk traveling at 9.0 m/s strikes a 7.0 kg stick of length 5.0 m that is lying flat on nearly frictionless ice as shown in the overhead view in the figure below. The disk strikes at the endpoint of the stick at a distance r 2.5 m from the stick's center. Suppose that the collision is perfectly inelastic so that the disk adheres to the stick at the endpoint at which it strikes. The...
please show steps thanks:) VID TU.O.P.04. My Notes Adid slides toward a motionless stick on a frictionless surface f...
please show steps thanks:)
VID TU.O.P.04. My Notes Adid slides toward a motionless stick on a frictionless surface figure below). The disk strikes and adheres to the stick and they rotate together, pivoting around the nail Angular momentumn is conserved for this inelastic collision because the surface is frictionless and the unbalanced external force at the nail exerts no torque. Before Alter Nail (pivot) Consider a situation where the disk has a mass of 51.5 g and an initial velocity...
Problem 3: Disk and stick collision A disk of mass m traveling with a velocity v1...
Problem 3: Disk and stick collision A disk of mass m traveling with a velocity v1 strikes a stick of mass M and length L that is lying flat on frictionless ice as shown in the overhead view in the figure. The disk strikes at the endpoint of the stick, at a distance r from the stick's center. Assume the collision is elastic and the disk does not deviate from its original line of motion. Analyze the system before and after...
i have the correct answers listed below.. please show the work for how to get those...
i
have the correct answers listed below.. please show the work for
how to get those answers!
After Before Nail (pivot) (a) (b) Figure 10.26 The disk hits the stick at one end and adheres to it, and they rotate together pivoting around the nail. Angular momentum is conserved for this inelastic collision because the surface is friction less and the unbalanced external force at the nail exerts no torque Suppose the disk in Figure 10.26 has a mass of...
a. The figures show a disk with radius, a= 0.20 m, and mass, M= 0.80 kg,...
a. The figures show a disk with radius, a= 0.20 m, and mass, M=
0.80 kg, resting on a frictionless table. One particle with mass,
m1 = M/4, with velocity, v= 4 m/s, slides along the
stable, and collides with the disk at the point shown. A second
particle with mass, m2, moving with velocity
v2 = 4v collides with the disk at the point shown. The
two masses collide with the disk at the same time, and after the...
please clearly show your work and circle the answers have the correct answers listed below.. please...
please clearly show your work and circle the answers
have the correct answers listed below.. please show the work for how to get those answers! Figure 1025 The disk hits the stick at one end and adheres to it, and they rotate together, pivoting around the nail Angular momentum is conserved for this inelastic collision because the surface is frictionless and the unbalanced external force at the nal exerts no torque Suppose the disk in Figure 10:26 has a mass...
5. The figures on the right show a disk with radius, a = 0.20 m, and mass, M = 0.80 kg, resting on a frictionless table. One particle with mass, m1-M/4, with velocity, v- 4 m/s, slides along the stab...
5. The figures on the right show a disk with radius, a = 0.20 m, and mass, M = 0.80 kg, resting on a frictionless table. One particle with mass, m1-M/4, with velocity, v- 4 m/s, slides along the stable, and collides with the disk at the point shown. A second particle with mass, m2, moving with velocity v2-4v collides with the disk at the point shown. The two masses collide with the disk at the same time, and after...
pls draw Free body diagram
System (Ang GUARD SMEAR HIGHLIGHTER Shonnio A 2.0-kg disk traveling at 3.0 m/s strikes a 1.0-kg stick of length 4.0 m that is lying flat on nearly frictionless ice as shown in the overhead view of Figure 11.12a. The disk strikes at the endpoint of the stick Assume the collision is elastic and the disk does not deviate from its original line of motion. Find the translational speed of the disk, the translational speed of...
Adisk slides toward a motionless stick on a frictionless surface (figure below). The disk strikes and adheres to the stick and they rotate together pivoting around the rail. Angular momentum is conserved for this inelastic collision because the surface is frictionless and the unbalanced external force at the tail exerts no torque Before M Nal (plot 0.100 m from the il Consideratuation where the disk as a masof 515 (a) What is the angula velocity in rad/s) of the two...
A6.0 kg disk traveling at 9.0 m/s strikes a 7.0 kg stick of length 5.0 m that is lying flat on nearly frictionless ice as shown in the overhead view in the figure below. The disk strikes at the endpoint of the stick, at a distance r = 2.5 m from the stick's center. Suppose that the collision is perfectly inelastic so that the disk adheres to the stick at the endpoint at which it strikes. The moment of inertia...
with good explanation.
2. A6.0 kg disk traveling at 9.0 m/s strikes a 7.0 kg stick of length 5.0 m that is lying flat on nearly frictionless ice as shown in the overhead view in the figure below. The disk strikes at the endpoint of the stick at a distance r 2.5 m from the stick's center. Suppose that the collision is perfectly inelastic so that the disk adheres to the stick at the endpoint at which it strikes. The...
please show steps thanks:)
VID TU.O.P.04. My Notes Adid slides toward a motionless stick on a frictionless surface figure below). The disk strikes and adheres to the stick and they rotate together, pivoting around the nail Angular momentumn is conserved for this inelastic collision because the surface is frictionless and the unbalanced external force at the nail exerts no torque. Before Alter Nail (pivot) Consider a situation where the disk has a mass of 51.5 g and an initial velocity...
Problem 3: Disk and stick collision A disk of mass m traveling with a velocity v1 strikes a stick of mass M and length L that is lying flat on frictionless ice as shown in the overhead view in the figure. The disk strikes at the endpoint of the stick, at a distance r from the stick's center. Assume the collision is elastic and the disk does not deviate from its original line of motion. Analyze the system before and after...
i
have the correct answers listed below.. please show the work for
how to get those answers!
After Before Nail (pivot) (a) (b) Figure 10.26 The disk hits the stick at one end and adheres to it, and they rotate together pivoting around the nail. Angular momentum is conserved for this inelastic collision because the surface is friction less and the unbalanced external force at the nail exerts no torque Suppose the disk in Figure 10.26 has a mass of...
a. The figures show a disk with radius, a= 0.20 m, and mass, M=
0.80 kg, resting on a frictionless table. One particle with mass,
m1 = M/4, with velocity, v= 4 m/s, slides along the
stable, and collides with the disk at the point shown. A second
particle with mass, m2, moving with velocity
v2 = 4v collides with the disk at the point shown. The
two masses collide with the disk at the same time, and after the...
please clearly show your work and circle the answers
have the correct answers listed below.. please show the work for how to get those answers! Figure 1025 The disk hits the stick at one end and adheres to it, and they rotate together, pivoting around the nail Angular momentum is conserved for this inelastic collision because the surface is frictionless and the unbalanced external force at the nal exerts no torque Suppose the disk in Figure 10:26 has a mass...
5. The figures on the right show a disk with radius, a = 0.20 m, and mass, M = 0.80 kg, resting on a frictionless table. One particle with mass, m1-M/4, with velocity, v- 4 m/s, slides along the stable, and collides with the disk at the point shown. A second particle with mass, m2, moving with velocity v2-4v collides with the disk at the point shown. The two masses collide with the disk at the same time, and after...
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