Two blocks m1 and m2 are connected with a compressed spring. Two blocks are connected by a light string that passes over two frictionless pulleys. M 2 is released at t = 0. The work done by spring on the blocks M1 and M2 be W1 and W2 respectively by time t. Then the value of W 1 W 2 equals to: Aug 20, 2013 · The discussion revolves around a physics problem involving two blocks connected by a spring on a frictionless surface. To solve, one must consider the center of mass and the relative positions of the blocks, defining the distance between them Two block of masses m1 and m2 are connected with a massless unstretched spring and placed over a plank moving with an acceleration 'a' as shown in figure. Two blocks of masses m 1 and m 2 are connected by spring of constant K. Dec 27, 2022 · A system is composed of two blocks of mass M1 and M2 connected by a massless spring with spring constant K. The work done by spring on the blocks m 1 and m 2 be W 1 and W 2 respectively by time t. If the hanging block of mass m2 falls a distance h before coming to rest, calculate the coefficient of kinetic friction QUESTION 5 Two blocks (m1 = 40 kg, m2 = 30 kg) are connected by a compressed spring and are initially at rest. Jun 11, 2018 · The discussion focuses on a system of two blocks connected by a spring on a frictionless plane, analyzing the motion of the center of mass after one block is released. Sep 9, 2017 · If you just have two blocks moving towards each other, there is no upper limit to how much a spring between them can be compressed (well, assuming that the spring doesn't bottom out). . The blocks slide on a frictionless plane. Physics Physics questions and answers (a) Two blocks are connected by a light string that passes over two frictionless pulleys. Two blocks of masses M1 and M2 are connected by spring of constant K. Two blocks with masses m1 = 1 kg and m2 = 2 kg are connected by a spring of spring constant k = 24 N/m and placed on a frictionless horizontal surface as shown in the figure. Initially the spring is stretched through a distance xo when the system is released from rest. Two blocks of mass m1 and m2 are connected to the ends of a spring. A force F is applied to block m1 causing both m1 and m2 to accelerate together. The coefficient of friction between the blocks and the surface is μ. The block of mass m2 is attached to a spring of force constant k, and m1 > m2. The spring is initially compressed and the system is released from rest at t = 0 second. Find a. Two blocks of mass m1 and m2 (m1 <m2) are connected with an ideal spring on a smooth horizontal surface as shown in figure. Initially m2 is held so Two blocks of masses m1 and m2 inter connected by a spring of stiffness k are placed on a horizontal surface. The relevant equation for the period of oscillation is T = 2π√ (m/k). Jan 7, 2020 · Two blocks are connected by a light string that passes over two frictionless pulleys. 24. m2 is released that t = 0. The spring is compressed and then released . (a) Spring will be stretched if a> μ g. Two smooth blocks of masses m1 and m2 attached with an ideal spring of stiffness k and kept on a horizontal surface. The masses are applied forces F 1 and F 2 as shown in F ig. Then the value of W1/W2 equals to: >>Class 11 >>Physics >>Work, Energy and Power >>Collisions in Two blocks of mass m1 and m2, connected by a light spring of stiffness k, are kept on a smooth horizontal surface as shown in the figure. Initially m2 is held so that the spring is compressed to l / 2 and m1 is forced against a stop, as shown. The coefficient of friction between the blocks and the platform is μ μ. (A) spring will be stretched if a > μg (B) spring will be compressed if a ≤ μg Two blocks of masses m1 and m2 are connected by spring of constant K. Find the ratio of acceleration of masses . Determine the position of mass m 2 from the wall by adding the unstretched length of the spring L to the compression of the spring x. Under the influence of Two blocks m1 m2 are connected by a spring of force constant K and are placed on a frictionless horizontal surface. (b) Spring will be compressed if a ≤ μ g. The system is released from rest when the spring is unstretched. Two blocks of masses m1 and m2 are connected by aspring of spring constant k (figure 9-E15). The masses are applied forces F1 and F2 as shown in figure. The block of mass m2 is attached to a spring with a force constant k, and m1> m2. Jun 25, 2019 · Two blocks `m_ (1)` and `m_ (2)` are connected with a compressed spring and placed on a smooth horizontal acceleration of `m_ (2) is a_ (0) =0` Two blocks of masses m1 and m2 are connected with a light spring of force constant k and the whole system is kept on a frictionless horizontal surface. m2 is released at t=0. Two blocks of masses m1 and m2 are connected by a spring of constant k (given figure). The block of mass m2 is attached to a spring of force constant k and m1>m2. 24 Question Two blocks are connected by a light string that passes over two frictionless pulleys. The block of mass m1 lies on a horizontal surface and is connected to a spring with a force constant k. Block of mass m1 but not m2 is fastened to the spring. 0 m/s. Two blocks of masses m and m' are connected by a light spring on a horizontal frictionless table . Question: QUESTION5 Two blocks (m1 40 kg, m2 30 kg) are connected by a compressed spring, and are initially at rest. The coefficient of friction between the blocks and platform is mu View Solution QUESTION 5 Two blocks (m1 40 kg, m2 30 kg) are connected by a compressed spring, and are initially at rest. m 2 is released at t = 0. Initially the spring is stretchedthrou Two masses $m_ {1}$ and $m_ {2}$ slide freely in a horizontal frictionless track and are connected by a spring whose force constant is $K$. The block of mass m 2 is given a sharp impulse so that it acquires a velocity v 0 towards right. Then the value of W 1 W 2 equals to: Nov 28, 2024 · 4. find the maximum elongation of the spring. Question: QUESTION 5 Two blocks (m1 40 kg, m2 30 kg) are connected by a compressed spring, and are initially at rest. A spring is compressed between two blocks of masses m1 and m2 placed on a horizontal frictionless surface. Two blocks and string The two blocks M1 and M2 shown in the sketch are connected by a string of negligible mass. Two masses m1 and m2 are connected by a spring of spring constant k and are placed on a frictionless horizontal surface. The participants derive equations based on Newton's laws and simple harmonic motion, ultimately determining the motion of the center of Two blocks are connected by a light string that passes over two frictionless pulleys as in Figure P5. Question: ) Two blocks are connected by a light string that passes over two frictionless pulleys. 50kg and m2 = 3. If the speed of the first block is 15 m/s, what is the speed of the second block? A. Dec 9, 2023 · Two blocks (m1 = 40 kg, m2 = 30 kg) are connected by a compressed spring and are initially at rest. Nov 16, 2020 · Two blocks of masses m1 and m2 are connected by a spring of spring constant k. Two blocks of masses m1 and m2 are connected with a massless unstretched spring and placed over a plank moving with an acceleration ′a′ as shown in figure. 7 Blocks and compressed spring A system is composed of two blocks of mass m1 and m2 connected by a massless spring with spring constant k. The speed of both the blocks at time t are non zero. The work done by spring on the blocks m1 and m2 be W 1 and W 2 respectively by time t. Initially the spring is stretched through a distance 'd' when the system is move from rest. Find the minimum constant force F to be applied to m 1 in order to just slide the mass m 2 . The coefficient of friction between the blocks and platform is mu May 25, 2023 · Two blocks are connected by a light string that passes over a frictionless pulley, as shown in Figure P12. Dec 3, 2019 · Two blocks (m1 = 40 kg, m2 = 30 kg) are connected by a compressed spring and are initially at rest. The coefficient of friction between the blocks and platform is mu View Solution Two blocks (m1 = 40 kg, m2 = 30 kg) are connected by a compressed spring and are initially at rest. Now, m1a1 = -m2a2 or, a1/a2 = -m2/m1 which was to be established. Initially, m 2 is held so that the spring is compressed to l/2 and m 1 is forced against a stop. The block of mass m2 is attached to a spring of force constant k and m1 > m2. The un stretched length of the spring is l. Two blocks of masses m 1 and m 2 are connected with a massless unstretched spring and placed over a plank moving with an acceleration a, as shown in the figure. Feb 5, 2022 · Two blocks of masses m_ (1) and m_ (2) are connected by a spring of stiffness k. Find the minimum constant force F to be Oct 23, 2007 · Two blocks with masses m1 = 1. Initially M2 is held so that the spring is compressed to L/2 and M1 is forced against a stop. The spring breaks, and the two objects fly apart from one another. The spring is initially compressed by 77. the velocity of the cenre of mas b. Assume m2> m1. Oct 7, 2023 · Two blocks are connected by a light string that passes over two frictionless pulleys, as shown in the figure below. M2 is released at t = 0. Not the question you’re looking for? Post any question and get expert help quickly. Then the value of W1/W2 equals to: >>Class 11 >>Physics >>Systems of Particles and Rotational Q2_ Center of mass of a system of blocks and compressed spring A system is composed of two blocks of mass m1 and m2 which are connected by a massless spring with spring constant k. If the system is kept on smooth floor then find (a) the velocity of the centre of mass, (b) the maximum elongation that the spring will suffer? Two blocks of masses m 1 and m 2 are connected with a massless undeformed spring and placed over a plank moving with an acceleration a as shown in the figure. Figure P5. There is also a force F acting on the upper block, keeping the system in equilibrium with the spring compressed. What should be the initial compression of the spring so that the system will be about to break off the surface, after releasing the block m1? Two blocks of masses m1 and m2 are connected by spring of constant K. 50kg are at rest on a frictionless surface with a compressed spring between them. Sep 17, 2021 · A system is composed of two blocks of mass m 1 and m 2 connected by a massless spring with spring constant k. The unstretched length of the spring is l. The system is released from this position. The spring breaks and the two objects fly apart from one another. Two block of mass m1 and m2 are connected with the help of a spring constant k initially the spring in its natural length as shown. Initially m2 is held so that the spring is compressed to l/2 and m1 is forced against stop (wall). Find the motion of the center of mass of the system as a function of time. Find the distance moved by the two masses before they again come to rest. Initially m2 is held so that the spring is compressed to l/2 and m1 is forced against a stop, as shown. If the system is released from rest, and the spring is initially not stretched or compressed, find an expression for the maximum displacement d of m 2. Find the the frequency of oscilatory motion for this system. Two blocks with masses m1 and m2 are connected wth a string that passes over a very light, frictionless pulley. The spring is initially compressed and the system is released from rest at t=0 second. Neglect friction. Initially the spring is given extension x0 when the sysetem is released from rest, find the distance moved by two blocks before they again comes to rest. m2. The block of mass m2 is attached to a spring of force constant k, and m1> m2. The speeds of both the blocks at time t are non zero. The block of mass m2 is given a sharp impulse so that it acquires a velocity v0 towards right. The coefficient of frictionbetween the blocks and the surface is mu. Two blocks of masses m1 and m2 are connected with a massless undeformed spring and placed over a plank moving with an acceleration ‘a’ as shown in figure. Block 1 is resting on a rough, horizontal surface, while block 2 is hanging over the edge. A system is composed of two blocks of mass m1 and m2 connected by a massless spring with spring constant k. The work done by spring on the blocks m1 and m2 be W1 and W2 respectively by time t. The unstretched length of the spring is L. The work done by spring on the blocks m1 and m2 be W1 and W2 respectively by time t . If m1 is projected with a horizontal velocity v0. The coefficient of friction between the blocks and platform is μ μ. Then the value of W1W2 equals to A M1M2 B M2M1 C (M1M2)2 D (M2M1)2 Open in App Solution Verified by Two blocks of masses m1 and m2 are connected by spring of constant K . Initially the spring is stretched through a distance x0 when the system is released from rest. Find (a) the velocity of the centre of mass, (b) the maximum elongation that the spring will suffer. Two blocks (m1 40 kg, m2 30 kg) are connected by a compressed spring, and are initially at rest. 0 cm and has negligible mass. The block of mass m2 is attached to a spring of force constant k and m1>m2 If the system is released from rest, and the spring is initially not stretched or compressed, find an expres- sion for the maximum displacement d of m2 A system is composed of two blocks of mass m1 and m2 connected by a massless spring with spring constant k. The block of mass m1 is pulled by a constant force F1 and the other block is pulled by a constant force F2 . The coefficient of friction between the blocks and platform is mu Two block of masses m1 and m2 are connected with a massless unstretched spring and placed over a plank moving with an acceleration 'a' as shown in figure. The coefficient of friction between the blocks and platform is μ. If the speed of the first block is 15 m/s, what is the speed of the second block? Two masses m1 and m2 are connected by a spring ofspring constant k and are placed on a frictionlesshorizontal surface. The amplitude of oscillation of block of mass m1 after the system released, is : d√ m1 Solution 1 #### Solution By Steps ***Step 1: Identify the forces acting on the system*** The system consists of two blocks of masses m1 and m2 connected by a spring with force constant k. If the system is released from rest, find how far block M1 slides in time t. The block of mass mz attached to spring of force constant ana m1 m2 If the system is released from rest, and the spring initially not stretched or compressed find an expression for the maximum displacement of mz' (Use any variable or symbol stated above along with the following as necessary Two block of masses m1 and m2 are connected with a massless unstretched spring and placed over a plank moving with an acceleration 'a' as shown in figure. The coefficient of friction between the blocks and platform is mu Two blocks of masses m1 and m2 inter connected by a spring of stiffness k are placed on a horizontal surface. 2 kg and m2 = 3. Thus, the system as a whole is at Thus F1 + F2 = 0 or, m1a1 + m2a2 = 0 Where a1 and a2 are accelerated of the masses m1 and m2 respectively in the opposite direction. Then the value of W1/W2 equals to: >>Class 11 >>Physics >>Systems of Particles and Rotational Sep 2, 2023 · Two blocks are connected by light string that passes over frictionless pulleys as in the figure below. Mar 8, 2020 · Question #104973 Two blocks are con- nected by a light string that passes over two frictionless pulleys. The block of mass `m_2` is given a shapr imulse so that it acquires a velocity `v_0` twoards right. Two blocks of masses m1 and m2 are connected by spring of constant K. Sep 15, 2025 · Blocks and compressed spring A system is composed of two blocks of mass m1 and m2 connected by a massless spring with spring constant k. Two blocks are connected by a light string that passes over two frictionless pulleys as in Figure P5. 6. Then the value of W 2W 1 equals to: Two masses m1 and m2 are connected by a spring of spring constant k and are placed on a horizontal surface. Find the motion of the center of mass of the system as a function of time. Two mass m 1 and m 2 are connected by a spring of spring constant k and are placed on a frictionless horizontal surface. Initially m 2 is held so that the spring is compressed to l / 2 and m 1 is forced against a stop, as shown. A sharp impulse is given to mass m2 so that it acquires a velocity v0 towards right. Then the value of W1W2 equals to A M1M2 B M2M1 C (M1M2)2 D (M2M1)2 Open in App Solution Verified by Two blocks of masses m1 and m2 are connected with a massless unstretched spring and placed over a plank moving with an acceleration ′a′ as shown in figure. Question The two blocks of masses m1 and m2 are kept on a smooth horizontal table as shown in the figure. Find the motion of the center of mass of Mar 13, 2023 · The Atwood's machine consists of two blocks of mass m1 and m2, connected by a light string passing over a pulley with negligible friction and mass. Two blocks m1 and m2 are connected with a compressed spring and placed on a smooth horizontal surface as shown in figure. Two blocks of masses m 1, m 2 are connected by a spring of stiffness k. Find (a) the velocity of the centre of mass, (b) the maximum elongation that the spring will suffer. The block of mass m 2 is attached to a spring of force m1 constant k and m1 . If the speed of the first block is 15 m/s, what is the speed of the second block? A spring is compressed between two blocks of masses m1 and m2 placed on a horizontal frictionless surface. Two blocks are connected by a light string that passes over to frictionless pulleys as in the figure below. If the system is released from rest, and the spring is initially not stretched or compressed, find an expression for the maximum displacement Sep 17, 2023 · Two mass m1 and m2 are connected by a spring of spring constant k and are placed on a frictionless horizontal surface. You can get more and more spring compression by increasing the velocity of one block or the other or both towards each other without limit. The spring is held compressed and the system is placed on a smooth horizontal table. Two blocks of masses m 1 and m 2 are connected by a spring of spring constant k (See figure). The key focus is on finding the equation of motion for the center of mass of the system after one block is released from a compressed state. Two blocks of masses m1 and m2 are connected with a light spring of force constant k and the whole system is kept on a frictionless horizontal surface. If the system is released from rest, and the spring is initially not stretched or compressed, find an expression for the maximum dis- placement d of m2. Dec 11, 2019 · Two blocks (m1 = 40 kg, m2 = 30 kg) are connected by a compressed spring and are initially at rest. Two block of masses m1 and m2 are connected with a massless unstretched spring and placed over a plank moving with an acceleration 'a' as shown in figure. The block ofmass m2 is given a sharp impulse so that it acquires Apr 17, 2018 · Two blocks with masses m1 = 2. Mar 2, 2008 · The problem involves two blocks of different masses connected by a spring on a frictionless surface, and the goal is to determine the period of oscillation in terms of the masses and spring constant. If m1 is projected with a horizontal velocity ν0, find the maximum compression of the spring. A system is composed of two blocks of mass M1 and M2 connected by a massless spring with spring constant K. The conservation of momentum principle indicates that the total momentum before and after release must be equal, allowing for the calculation of m2's speed. Then the value of W1W2 equals to: A m1m2 B m2m1 C (m1m2)2 D (m2m1)2 Open in App Solution Verified by Two blocks of masses M1 and M2 are connected by spring of constant K. When the blocks are released, the blocks travel distance x1 and x2 respectively before coming to rest. Sep 17, 2021 · Question A system is composed of two blocks of mass m 1 and m 2 connected by a massless spring with spring constant k. Jul 6, 2019 · Two blocks of masses m1 and m2 are connected with a mass less unstretched spring and placed over a plank moving with an acceleration ‘a’ as shown in figure. If a constant horizontal force F acts on the block m1 it slides through a distance x whereas m2 remains stationary. Two blocks are connected by a light string that passes over two frictionless pulleys as in the figure below. The block of mass M2 is attached to a spring of force constant k and m1 > M2. Question: Two blocks (m1 = 40 kg, m2 = 30 kg) are connected by a compressed spring, and are initially at rest. Then the value of W1/W2 equals to: >>Class 11 >>Physics >>Systems of Particles and Rotational Jan 14, 2020 · The forces F1 and F2 due to masses m1 and m2 respectively act on the stretched spring in opposite directions. The unstretched length of spring is l. If the System is released from rest, and the spring is initially not stretched or compressed, find an expression for the maximum displacement d of m2. The system is released from rest. If the speed of the first block is 15 m/s, what is the speed of the second block? Two smooth blocks of mases m1 and m2 attached with an ideal spring of stiffness k and kept on hrozontal surface. Apr 4, 2018 · Two blocks of masses m1 and m2 are connected by a spring of spring constant k (figure 9-E15 b) the maximum elongation that the spring will suffer. Force constant of spring is k. Initially the spring is stretched through a distance x 0 when the system is released from rest. the maximum elongation that teh spring will suffer. Question: A system is composed of 2 blocks of mass m 1 and m 2 connected by a massless spring with spring constant k. 5 kg are released from a compressed spring on a frictionless surface, with m1 achieving a speed of 3. Find the maximum compression of the spring. The block of mass m1 = 2 kg is kept at x = 1 cm mark and the other block is at x = 2 cm mark. ***Step 2: Determine the minimum value of the applied force (F) to prevent the lower block from Question Two blocks initially at rest having masses m1 and m2 are connected by spring of spring constant k (as shown in the figure). If now both the blocks are pushed to the left, so that the spring is compressed at a distance d. The block of mass m1 is a distance h1 above the ground, and the block of mass m2 is a distance h2 above the ground. At t = 0 m1 is at rest and m2 is given a velocity v towards right. If the system is released from rest, and the spring is initially not stretched or compressed, find an expression for the maximum displacement d of m2. Jun 14, 2023 · Two blocks, m1 and m2, are connected by a spring and placed on a frictionless surface. The block of mass m 2 is attached to a spring of force constant k, and m 1 > m 2. The block of mass m1 is pulled by a constant force F1 and the other block is pulled by a constant force F2 in the direction opposite to that of F1. 379. Cannot be determined. 15mx7k ebbtvz u0wf j0fhx3 ekkdku eyiqjegz ktate tawl rdlo twjz