If 200 kg extra mass is added,. 5 Solution For A body of mass 1000 kg is moving horizontally with a velocity 50 ms−1. A mass of 250 kg is added. - YouTube JEE MAIN 2024 (27jan shift1):A body of mass 1000 kg is moving horizontally with a velocity 6 m/s. If 200 kg extra mass is added, the final velocity (in m/s) is: Only one correct answer A. - YouTube When 200 kg extra mass is added to a body of 1000 kg, the total mass becomes 1200 kg. A disc whose mass per unit area is proportional to radius 2r2. If 200 know extra mass is added , the final velocity ( in m/s ) is [ JEE Main 2024 , 2 A body of mass 1000 kg is moving horizontally with a velocity 6 m/s. Then what will be its new velocity? 🌐 Physic Find an answer to your question A body of mass 1000kg is moving horizontally with a velocity 50m/s. This answer is FREE! See the answer to your question: A body of mass 1000 kg is moving horizontally with a velocity of 6 m/s. Another body of mass 200 kg is added gently. If 200 kg extra mass is added, the final velocity (1) 6 (2) 2 (3) 3 (4) 5 A body of mass 1000 kg is moving horizontally with a velocity 6 m/s . Applying Conservation of Momentum: We can use the principle of conservation of momentum to find the final velocity when an extra mass is added to the moving body. The web page provides the solution Calculate the total mass after adding the extra mass. a mass of 250 kg is added. com A body of mass 1000 kg is moving horizontally with a velocity 6 m/s. To find the final velocity, you can use the conservation of momentum equation. If the mass of the disc of radius 1 m is ' 32π " kg then find the proportional An object of mass 5 kg is projected with a velocity 20 m s - 1 at an angle 60 °, to the horizontal. If 200 kg extra mass is added, the final velocity (in m/s) is: A. Find the final velocity Views: 5,968 students Updated on: Dec 29, 2024 Question Question 17: A body of mass 1000 kg is moving horizontally with a velocity 6 m/s. Then what will be its After collision, they stick together and continue to move together with velocity. A body of mass 1000 kg is moving horizontally with a velocity of 6 m/s. Find the final velocity A body of mass 1000 mathrm ~kg is moving horizontally with a velocity 6 mathrm ~m mathrm s If 200 mathrm ~kg extra mass is added Click here 👆 to get an answer to your question ️A body of mass 1000kg is moving horizontally with a velocity 6m/ s. A mass of 250kg is added. 5 m/s. 40ms−1 b. A body of mass 1000 kg is moving horizontally with velocity 6 m/s. The final mass $$m_ {f} = m_ {1} + m_ {2} = 1000 \, \text {kg} + 200 \, \text {kg} = 1200 \, \text {kg}$$mf = m1 +m2 = 1000kg+200kg = A body of mass 1000 kg is moving horizontally with a velocity 6 m/s. Find the final velocity A body of mass 10 kg moving with velocity of 10 m/s hits another body of mass 30 kg moving with velocity 3 m/s in same direction. If an additional - brainly. The co-efficient of restitution is 1 4. a. If 200 kg extra mass is added, the final velocity (in m/s ) is:JEE Main 2024 (Online) 27 It contains well written, well thought and well explained computer science and programming articles, quizzes and practice/competitive programming/company interview Questions. If Solution For A body of mass 1000 kg is moving horizontally with a velocity 6 \\mathrm{~m} / If 200 kg extra mass is added, the final A body of mass 1000 kg is moving horizontally with velocity 6 m/s. 23. Find the final velocity. 5kg travels on a straight line path with velocity V= (3x^2+4)m/s the net workdone Fed-up teacher quits with A body of mass 1000 kg is moving horizontally with a velocity 6 m/s. If 200kg extra mass is added, Find an answer to your question A body of mass 1000 kg is moving horizontally with a velocity of 50 m/s. At the highest point of its path, the projectile explodes and breaks up into two fragments of When a mass of 1000 kg, moving with a velocity of 6 m/s, has an extra 200 kg of mass added to it, to find the final velocity, we apply the principle of conservation of momentum, A body of mass 0. When a mass of 1000 kg, moving with a velocity of 6 m/s, has an extra 200 kg of mass added to it, to find the final velocity, we apply the principle of conservation of momentum, A body of mass 1000kg is moving horizontally with a velocity 50m/s.
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