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006 5.0 points Two 7 kg particles have velocities V1 = (2 m/s)2 + (1.5 m/s))...
Two 3.0 Kg particles have velocity V1=2.0m/s i+3.0m/s j and V2= 4.0 m/s i-6.0m/s j. Find...
Two 3.0 Kg particles have velocity V1=2.0m/s i+3.0m/s j and V2= 4.0 m/s i-6.0m/s j. Find the velocity of the center mass of the system.
The drawing shows three particles that are moving with different velocities. Two of the particles have...
The drawing shows three particles that are moving with different velocities. Two of the particles have mass m, and the third has a mass 2m. The third particle has a velocity of V3 = +5.0 m/s. At the instant shown, the center of mass (cm) of the three particles is at the coordinate origin. What is the velocity Vem (magnitude and direction) of the center of mass? +4.0 m's -8.0 m/s cm vam = ? V3 Velocity of center of...
Consider a system of two particles In the xy plane: m_1 = 1.85 kg is at...
Consider a system of two particles In the xy plane: m_1 = 1.85 kg is at the location r_1 = (1.00i + 2.00J) m and has a velocity of (3.00i + 0.500j) m/s; m_2 = 2.90 kg Is at r_2 - (-4.00i - 3.00J) m and has velocity (3.00i - 2.00J) m/s. Plot these particles on a grid or graph paper. Draw their position vectors and show their velocities. (Do this on paper. Your Instructor may ask you to turn...
Two hockey players are traveling at velocities of v1-10 m/s and v2-20 m/s when they undergo...
Two hockey players are traveling at velocities of v1-10 m/s and v2-20 m/s when they undergo a head-on collision. After the collision, they grab each other and slide away together with a velocity of -3.9 m/s. Hockey player 1 has a mass of 115 kg. What is the mass of the other player? kg
Consider a system consisting of three particles: m1 = 5 kg, v1 = <11, -8, 12>m/s
Consider a system consisting of three particles: m1 = 5 kg, v1 = <11, -8, 12>m/s m2 = 2 kg, v2 = < -13, 4, -5 > m/s m3 = 2 kg, v2 = < -22, 38, 20 > m/s (a) What is the total momentum of this system? (b) What is the velocity of the center of mass of this system? (c) What is the total kinetic energy of this system? (d) What is the translational kinetic energy of this system? (e) What is the kinetic energy...
A ball of mass 0.195 kg with a velocity of 1.5 m/s meets a ball of...
A ball of mass 0.195 kg with a velocity of 1.5 m/s meets a ball of mass 0.299 kg with a velocity of-039i m/s in a head-on, elastic collision (a) Find their velocities after the collision. m/s m/s (b) Find the velocity of their center of mass before and after the collision. Vom, bfore 0.383 aat0.383 m/s m/s
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...
At one instant, the center of mass of a system of two particles is located on the x-axis at x = 2.0 m and has a veloci...
At one instant, the center of mass of a system of two particles is located on the x-axis at x = 2.0 m and has a velocity of (5.0 m/s ) i^. One of the particles is at the origin. The other particle has a mass of 0.10 kg and is at rest on the x-axis at x = 8.0 m. What is the mass of the particle at the origin? Calculate the total momentum of this system. What is...
A block of mass m1 = 1.10 kg moving at v1 = 1.20 m/s undergoes a...
A block of mass m1 = 1.10 kg moving at v1 = 1.20 m/s undergoes a completely inelastic collision with a stationary block of mass m2 = 0.900 kg . The blocks then move, stuck together, at speed v2. After a short time, the two-block system collides inelastically with a third block, of mass m3 = 2.40 kg , which is initially at rest. The three blocks then move, stuck together, with speed v3. Assume that the blocks slide without...
Two particles are moving along the x axis. Particle 1 has a mass m1 and a...
Two particles are moving along the x axis. Particle 1 has a mass m1 and a velocity v1 = +4.5 m/s. Particle 2 has a mass m2 and a velocity v2 = -7.3 m/s. The velocity of the center of mass of these two particles is zero. In other words, the center of mass of the particles remains stationary, even though each particle is moving. Find the ratio m1/m2 of the masses of the particles.
The drawing shows three particles that are moving with different velocities. Two of the particles have mass m, and the third has a mass 2m. The third particle has a velocity of V3 = +5.0 m/s. At the instant shown, the center of mass (cm) of the three particles is at the coordinate origin. What is the velocity Vem (magnitude and direction) of the center of mass? +4.0 m's -8.0 m/s cm vam = ? V3 Velocity of center of...
Consider a system of two particles In the xy plane: m_1 = 1.85 kg is at the location r_1 = (1.00i + 2.00J) m and has a velocity of (3.00i + 0.500j) m/s; m_2 = 2.90 kg Is at r_2 - (-4.00i - 3.00J) m and has velocity (3.00i - 2.00J) m/s. Plot these particles on a grid or graph paper. Draw their position vectors and show their velocities. (Do this on paper. Your Instructor may ask you to turn...
Two hockey players are traveling at velocities of v1-10 m/s and v2-20 m/s when they undergo a head-on collision. After the collision, they grab each other and slide away together with a velocity of -3.9 m/s. Hockey player 1 has a mass of 115 kg. What is the mass of the other player? kg
A ball of mass 0.195 kg with a velocity of 1.5 m/s meets a ball of mass 0.299 kg with a velocity of-039i m/s in a head-on, elastic collision (a) Find their velocities after the collision. m/s m/s (b) Find the velocity of their center of mass before and after the collision. Vom, bfore 0.383 aat0.383 m/s m/s
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...
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