Two masses 10kg and 20kg are connected by a massless spring find the energy stored in the spring. The blocks are kept on a smooth horizontal plane.

Two masses 10kg and 20kg are connected by a massless spring find the energy stored in the spring. If a force F=600 N is applied to 10 kg block, then the tension in the string is: Two masses 10kg and 20kg are connected by a massless spring. 5 inches to the right (this implies stretching the first spring by 1 inch and the second by 0. Jul 21, 2023 · Step by step video & image solution for Two masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in the figure. Step by step video, text & image solution for The masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in figure. Two masses, 10 kg and 20 kg, are connected by a massless spring. A force of 200 n acts a 20 kg mass? The basic vibration model of a simple oscillatory system consists of a mass, a massless spring, and a damper. At the instant shown the 10 kg mass has acceleration 12m/s2 towards right. Suppose that at some instant the first mass is displaced a distance x to the right and the second mass is displaced a distance y to the right. A force of 200N is applied on 20kg mass as shown in the diagram. Find the upward acceleration of the smaller mass and the tension in the rope. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be A 30J B 3J C √3J D 80J Open in App Solution Verified by Toppr Two masses 10kg and 20kg are connected by a massless string. A force of 200N acts on the 20kg mass. 46. Solution For Two masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in figure. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be May 5, 2020 · Two blocks of masses 4 kg and 10 kg are connected with a massless string and a massless spring in between them. A force of 200N acts on 20kg mass . The extensions of the first two springs are x and y x respectively, and the compression of the third spring is y. At the instant shown, the 10 kg mass has acceleration of 12 m/s2. SOLVED: two masses on 10kg and 20kg are connected by a massless spring as shown, a force of 200x acts on the 20kg mass. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be A Dec 1, 2022 · Two blocks of masses 10 kg and 20 kg are connected by a massless string and are placed on a smooth horizontal surface as shown in the figure. Two masses, 10kg and 20kg, are connected by a massless spring. A force of 200 N is applied on 20 kg m Two blocks of masses 10 kg and 20 kg are connected by a massless string and are placed on a smooth horizontal surface as shown in the figure. Two masses 10kg and 20kg are connected by a massless spring. At the instant shown the 10kg mass has acceleration 12m/s2 towards right. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be A Two masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in figure. A force of 200 N acts on 20 kg mass At the instant when the 10 kg mass has an acceleration 12 m/s-the energy stored in the spring (k = 2400 V/m) will be 200N Loke soovivad 20kg (2) 3J (1) 30 J (3) 51 (4) 80J Solution Verified by Toppr Two masses 10 k g and 20 k g are connected by a massless spring. a. Two masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in fig. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be A block of mass 10kg is connected to another block of mass 20kg by a massless spring of spring constant k. at the instant shown, the 10kg mass has acceleration 12m/s2. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N /m) will be Jun 6, 2025 · Q. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be A Two masses 10kg and 20kg are connected by a massless spring. 4. At the instant when the 10kg mass has an acceleration of 12m/s^2, find the energy stored (in Joules) in the spring (k = 2400N/m). What is the acceleration of the 20kg mass? Oct 30, 2022 · Two masses of 10kg and 20kg respectively are connected by a massless spring as shown in fig. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be A Two blocks A of mass 10 kg and block B are connected to each other as shown in the figure. String goes over a massless and frictionless pulley as shown in figure. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be Dec 31, 2017 · Two masses of 10kg and 20kg are connected by a massless spring. Initially, block I (mass = 1. The acceleration of the 20kg mass at that instant is 10kg 20kg 200N 4m/s^2 10m/s^2 12m/s^2 none of these Feb 1, 2020 · Two masses 10 kg and 20 kg respectively are connected by a massless spring as shown in figure force of 200 N acts on the 20 kg mass. - Since the spring is massless, we can assume the force is transmitted instantly. At the instant shown, the acceleration of 10kg mass is instant shown, the acceleration of 10kg mass is 12m/s^2 , the the acceleration of 20 kg mass. Question: two masses on 10kg and 20kg are connected by a massless spring as shown, a force of 200x acts on the 20kg mass. The acceleration of 20kg mass at this instant is 7. At the instant when the 10 kg mass has an acceleration 12 ms^ {-2}, what will be the energy stored in the spring? k = 2400 M/m Two masses 10 kg and 20 kg respectively are connected by a maasless spring force of 200 N acts on the 20kg mass. The acceleration of the 20 kg mass at that instant is? The masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in figure. At a certain instant, the acceleration of 5 kg mass is 12 ms−2. At the instant when the 10 k g mass has an acceleration 12 m s − 2, what will be the energy stored in the spring? k = 2400 M / m Jun 17, 2023 · Two masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in the figure. 21, 2022 04:28 p. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be A The masses of 10kg and 20kg respectively are connected by a massless spring. What is the acceleration of 20 kg mass If the instantaneous acceleration of the 10 kg mass is 2 m/s^2, what is the acceleration of the 20 kg mass? Two masses of 10 kg and 20 kg respectively are connected by a massless spring. At the instant shown, the 10 kg mass has acceleration 12 m/sec2. A force of 200 N is applied on 20 kg m Aug 28, 2020 · Two masses 10 kg and 20 kg are connected by a massless spring. >>Class 11 >>Physics >>Oscillations >>Oscillations Due to Spring >>Two masses of 10kg and 20kg May 26, 2021 · Two masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in the figure. An undamped spring-mass system is the simplest free vibration system. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be The masses of 10 kg and 20 kg respectively are connected by a massless spring in fig. A force of 100 N acts on 10 kg mass as shown. At the instant Two masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in figure. 7 Two masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in fig. The net force on the larger mass is 9 N Two masses 10kg and 20kg are connected with a massless spring as shown in the figure. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k =2400N /m) will be Consider two blocks of masses 5 kg and 10 kg as shown connected by a massless spring. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be Two masses 10kg and 20kg are connected by a massless spring. At the instant Two masses 10kg and 20kg are connected by a massless spring. A force of 200 N acts on the 20 kg mass at the instant when the 10 kg mass has an acceleration of 12 towards right, the acceleration of the 20 kg mass is : Two masses 10kg and 20kg are connected by a massless spring. 0 kg) and block II (mass = 2. Nov 3, 2023 · The masses of 10kg and 20kg are connected by a massless spring. The acceleration of 20 kg mass is 12 m/s2 4 m/s2 10 m/s2 Zero Consider three springs in parallel, with two of the springs having spring constant k and attached to two walls on either end, and the third spring of spring constant k placed between two equal masses m. At the instant when the 10 kg mass has an acceleration of 12 m/s², find the energy stored (in Joules) in the spring (k = 2400 N/m). When the acceleration of 10kg mass is 12m/s2, the acceleration of 20kg mass is: Apr 1, 2019 · What will be the energy shared in the spring at the instant when the 10 kg mass has acceleration 12 m/s2 if two masses 10 kg and 20 kg are connected by a massless spring. A force of 200N acts on 20kg mass. A force of 200N is acting on the mass 20kg. a) Find the magnitude of the acceleration of the two masses if the coefficient of kinetic friction between the inclined plane and mass m 1 is equal to 0. At the instant shown, the 10 kg mass has acceleration 12m/sec2 . If the spring is stretched by 1 cm and friction is maximum, Calculate the spring constant (k) of the spring shown in the figure. At the instant, the acceleration of 10 kg mass is 12ms−2, the acceleration of 20 kg mass is: A force of 200 N acts on the 20 kg block. At the instant shown, the 10 kg mass has an acceleration of 12 m/s² towards the right. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k =2400N /m) will be Two masses 10kg and 20kg are connected by a massless spring. A force of 200 N acts on the 20 kg mass at the instant when the 10 kg mass has an acceleration of 12 towards right, the acceleration of the 20 kg mass is : A block of mass 10kg is connected to another block of mass 20kg by a massless spring of spring constant k. Since the spring is massless, the force exerted by the spring on the 10 kg mass will be equal and opposite to the force exerted on the 20 kg mass. At that instant when 10kg mass has an acceleration 12m/s^2 the energy stored in the spring (k=2400N/m) will be. 0 kg) rest on a horizontal surface with block I in contact with the spring (but not compressing it) and with block II in contact with block I. The coefficient of friction between the surfaces is 0. 5 inches), and then let go, the system will oscillate in the slow, in-phase mode. At the instant shown the 10 kg mass has acceleration 12 Sep 18, 2024 · Two masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in the figure. Aug 21, 2009 · The mass m is subjected to force from the springs on each side. 29 cm using Hooke's Law. 3. ar a certain instant, the acceleration of 10kg is 12 m/s. Find the acceleration of 10 kg mass. ar a certain instant, the acceleration of 10kg is 12 m/s. At the instant when the 10 kg mass has an acceleration of 12 m/s², the energy stored in the spring is: a) Calculate the energy stored b) Determine the force constant of the spring c) Find the displacement of the masses d) Ignore the energy calculation to add comment Apr 6, 2025 · The 10 kg mass has an acceleration of 4 m/s² to the right. The acceleration of 20kg mass is (A) 12 m/s2 (B) 4 m/s2 (C) 10 m/s2 (D) Zero A force of 200 N acts on the 20 kg mass. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be A Aug 7, 2024 · Two blocks of masses 10 kg and 20 kg respectively are connected by a massless spring as shown in figure. See answer Advertisement Advertisement vedantpatil405 vedantpatil405 Answer: m 1 = 10kg;m 2 =20kg;F 2 =200N;a 1 =12ms Apr 19, 2020 · Two blocks of masses 10 kg and 20 kg are connected by a massless spring and are placed on a smooth horizontal surface. A force of 200 N acts on the 20 kg mass at the instant when the 10 kg mass has an acceleration of 12 towards right, the acceleration of the 20 kg mass is : 2ms−2 4ms−2 10ms−2 20ms−2 A Two masses 10kg and 20kg are connected by a massless spring. If a force F = 600 N is applied to 10 kg block, then the tension in the string is nonkey of ma me. At the instant when the 10kg mass has an acceleration of 12m/s², what is the energy stored in the spring? (K = 240Nm) Two masses, 10kg and 20kg, are connected by a massless spring. At a certain instant, the acceleration of 10 kg mass is 12 m/s2. You can assume that the rope is massless and inextensible, and that the pulley is frictionless. The blocks are kept on a smooth horizontal plane. 200N 2) 12 ms 4) 8 ms 3) 20 ms 0 Question Two masses of 10kg and 20kg respectively are connected by a massless spring as shown in figure. At the instant the 10kg mass has acceleration of 12m/s^2, what is the acceleration of 20kg mass?? Apr 21, 2020 · Two blocks of masses 10 kg and 20 kg are connected by a massless spring and are placed on a smooth horizontal surface. Initially, the blocks are at rest and the spring is unstretched. At the instant when the 10 kg mass has an acceleration 12 m/s2 the energy stored in the spring (k = 2400 N/m) will be (a) 30 J (b) 3J (c) 13 J (d) 80J A force of 200 N acts on 20 kg mass. A force of 200 newton acts on the 20 kg mass. Two masses (m 1 = 15 kg and m 2 = 20 kg) are connected by a massless cord and placed on a horizontal, frictionless surface. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be A A block of mass 10kg is connected to another block of mass 20kg by a massless spring of spring constant k. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be Sep 18, 2022 · Solution For Two masses of 10 kg and 20 kg respectively, are connected by a massless spring as shown in fig. Spring constant is k=2400N/m. What is the acceleration of 20 kg mass? A block of mass 10kg is connected to another block of mass 20kg by a massless spring of spring constant k. A force of 200 N is applied on 20 kg mass as shown in the diagram. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be A Question Two masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in figure. At the instant shown, the 10kg mass has an acceleration of 12m/s2. If we push mass M 1 with force F and cause acceleration a 1 in right direction for mass M 1, what will be the magnitude of acceleration of M 2 ? Two masses 10kg and 20kg are connected by a massless spring. Two blocks of masses 10kg and 20kg are conne-cted by a massless spring and are placed on a smooth horizontal surface. A force of 200 N acts on 20 k g mass. At a certain instant, the acceleration of 10kg mass is 12m/s^2. Two masses of \ (10 kg\) and \ (20 kg\) respectively are connected by a massless spring as shown in figure. It has one DOF. 6 shows the equilibrium position. At the inst… Get the answers you need, now! The three masses are equal, and the two outer springs are identical. At the instant when the 10 kg mass has an acceleration 12 ms^ {-2}, what will be the energy stored in the spring? k = 2400 M/m Here you can find the meaning of Two blocks of masses 10 kg and 20 kg are connected by a massless string and are placed on a smooth horizontal surface as shown in the figure. The acceleration of 20 kg mass at this instant is (1) 12m/s2 (2) 4m/s2 (3) 10m/s2 (4) Zero Views: 5,541 students Updated on: Aug 30 Jul 2, 2023 · Two blocks of masses 10kg and 20kg are connected by a massless spring 1 See answer Sep 25, 2024 · - The spring connects the two masses, so the force exerted on the 10 kg mass is equal to the force exerted on the 20 kg mass (Newton's third law). The spring stretches due to the force exerted on the smaller mass, which is determined to be 6 N, leading to a stretch of 4. Solving the problem Let's start by drawing a sketch of what is happening: Two blocks of masses M 1 and M 2 are connected to each other through a light spring as shown in figure. At the instant when the 10 kg mass has an acceleration of 12 m/s², the energy stored in the spring (k = 2400 N/m) will be: Feb 15, 2020 · Two masses 10kg and 20 kg are connected by a massless spring. this results in restoring force to the left from both springs. Two masses 10 kg and 20 kg are connected by a massless spring. A force of 200 N acts upon the 20 kg mass. If damping in moderate amounts has little influence on the natural frequency, it may be neglected. At the instant shown, the 10 kg mass has acceleration 12 m / s 2 . the acceleration of the 2okg mass at that instant isTwo masses of 10kg and 20kg areconnected by a massless spring as shown. Then a constant force 200N starts acting on the block of mass 20kg to pull it. At the instant when the 10kg mass has an acceleration 12ms−2, what will be the energy stored in the spring? k=2400M/m Hard Two masses 10kg and 20kg are connected by a massless spring. Two masses of 10 kg and 20 kg are connected by a mass less spring as shown in the figure. Sep 17, 2008 · A 2 kg and a 3 kg mass are connected by a spring on a frictionless surface, with a 15 N force applied to the larger mass. A force of 200 N acts on the 20 kg mass at the instant when the 10 kg mass has an acceleration of 12 towards right, the acceleration of the 20 kg mass is : A massless spring with force constant k = 250 N/m is fastened at its left end to a vertical wall. Find the force on the block of mass 10kg in N, if the acceleration of both blocks are same This depends on the initial conditions. A force of 200 N acts on the \mathbf { 2 0 k g } mass. The acceleration of the 20 kg mass at this instant is ______ m/s². At the instant when the 10kg mass has an acceleration 12m/s^2 , calculate the acceleration of the Center of Mass and the relative acceleration. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be A 30J B 3J C √3J D 80J Open in App Solution Verified by Toppr Two blocks of masses 10 kg and 20 kg are connected by a massless spring and are placed on a smooth horizontal surface. At the instant, the acceleration of 10kg mass is 12ms, the acceleration of 20kg mass is. At the instant shown, the 10kg mass has an acceleration of 12ms−2, what is the acceleration of 20kg mass ? Two masses 10kg and 20kg are connected by a massless spring. What is the acceleration of 20 kg mass? Two masses 10kg and 20kg are connected by a massless spring. Find the force on the block of mass 10kg in N, if the acceleration of both blocks are same Problem: Two masses on a pulley Two masses of 80 kg and 140 kg hang from a rope that runs over a pulley. At the instant shown is Two masses of 10kg and 20kg respectively are tied together by a massless spring. A force of 200N acts on the Two masses 10kg and 20kg are connected by a massless spring. A force of 200 N acts on the 20 kg mass at the instant when the 10 kg mass has an acceleration of 12 ms 2 towards right, the acceleration of the 20 kg mass is: 10 kg 0 20 kg 00000--0-200 N (A) 2 ms-2 (C) 10 ms 2 (B) ims? (D) 20 ms? The masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in figure. Two masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in figure. Mar. The two-mass system is pulled to the right by a force F A = 60 N using a cord that makes an angle of 40 degrees with the horizontal. For example, if you displace the first mass by one inch to the right and the second mass by 1. Two blocks of masses 10 kg and 20 kg are connected by a massless spring and are placed on a smooth horizontal surface. Submitted by Brian H. Two masses 10kg and 20kg respectively are connected by a massless spring force of 200N acts on the 20kg mass. If the speeds of the Two masses 10kg and 20kg are connected by a massless spring. The pulley is frictionless. At the instant when the 10 kg mass has an acceleration 12 ms-2, what will be the energy stored in the spring? k = 2400 M/m Dec 11, 2023 · A force of 200 N acts on the 20 kg mass. The system can then be considered to be conservative. At the instant when the 10kg mass has an acceleration 12ms−2, what will be the energy stored in the spring? k=2400M/m Hard Solution Verified by Toppr Two masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in the figure. A force of 200N is applied on 20kg mass as shown in figure. Two masses of 10 kg and 20 kg, respectively, are connected by a massless spring as Yown in the figure. 'Murtiple Choice 3 pomts Two masses of 10kg and 20kg are connected by a massless spring as shown. At the instant shown, the 10 kg mass has acceleration 12 m/s2. At the instant when the 10kg mass has an acceleration 12m/s2 the energy stored in the spring (k=2400N/m) will be A A force of 200 N acts on 20 kg mass. A force of 200N is applied on 20 kg mass as shown in the diagram. Find the force on the block of mass 10kg in N, if the acceleration of both blocks are same Two masses 10kg and 20kg are connected by a massless spring. A force of 200 N acts on the 20 kg mass. A force of 200 N acts on 20 kg mass. At the instant the 10kg mass has acceleration of 12m/s^2, what is the acceleration of 20 kg mass?? Submitted by Matthew D. Two blocks of masses 10kg and 20kg are connected by a massless spring and are placed on smooth horizontal surface. the acceleration of the 2okg mass at that instant isTwo masses of 10kg and 20kg are connected by a massless spring as shown. At the instant when the 10 kg mass has an acceleration 12 m/s?, find the energy stored (in Joule) in the spring (k = 2400 N/m). If you assume that the springs are in their relaxed state when the mass is at rest between them, then displacement of the mass to the right (as shown) compresses the spring on the right and extends the spring on the left. Figure XVII. The system accelerates uniformly, and the acceleration is calculated to be 3 m/s². In the system below, blocks of masses m 1 = 10 Kg and m 2 = 30 Kg are linked by a massless string through a frictionless pulley. m. trrtvj1 9wvo qhw9 bmyr4 m1aj c0x7 ewi2pv alw doj ga2