WebApr 8, 2024 · The two bodies are identical and made of the same material. So, their mass will be the same, that is, $ {{m}_{1}}={{m}_{2}} $ . As per given specific heat capacity is … WebTwo identical bodies are made of a material for which the heat capacity increases with temperature. One of these is at 100° C , while the other one is at 0° C. If the two bodies are …
Two identical bodies are made of a material for which the heat
WebFind step-by-step Engineering solutions and your answer to the following textbook question: Consider heat transfer between two identical hot solid bodies and the air surrounding them. The first solid is being cooled by a fan while the second one is allowed to cool naturally. For which solid is the lumped system analysis more likely to be applicable? WebTwo metal spheres of the same material and radius r are in contact with each other. ... Q. Two identical spheres of radius R made of the same material are kept at a distance d apart. Then the gravitational attraction between them is proportional to: Q. ... Field Due to Continuous Bodies - 2. PHYSICS. Watch in App. Explore more. neha free online training
Two identical bodies are made of a material for which the heat
WebTwo identical bodies are made of a material for which the heat capacity increases with temperature. One of these is at 100 °C, while the other one is at 0 °C. If the two bodies are brought into contact, then assuming no heat loss, the final common temperature is: 1.50°C 2. more than50°C 3. less than50°Cbut greater than0°C 4.0°C Past Year (2016 - 2024) … WebApr 4, 2024 · As the bodies are identical and we have achieved that the distances between two bodies must be equal therefore, the forces acting on the three bodies must also be equal. Let us consider the forces acting on the body at point $1$ , the resultant force on this body will be towards the centre. WebNov 15, 2024 · Two identical bodies are made of a material for which the heat capacity increases with temperature. One of these is at `100^(@)C`. While the other one is at … neha from cleartax