297. The divergence concept can be illustrated using Pascal’s law. State True/False.
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a Explanation: Consider the illustration of Pascal’s law, wherein a ball is pricked with holes all over its body. After water is filled in it and pressure is applied on it, the water flows out the holes uniformly. This is analogous to the flux flowing outside a closed surface as the volume reduces.
a
See lessExplanation: Consider the illustration of Pascal’s law, wherein a ball is pricked with holes
all over its body. After water is filled in it and pressure is applied on it, the water flows out
the holes uniformly. This is analogous to the flux flowing outside a closed surface as the
volume reduces.
A Explanation: Consider the illustration of Pascal’s law, wherein a ball is pricked with holes all over its body. After water is filled in it and pressure is applied on it, the water flows out the holes uniformly. This is analogous to the flux flowing outside a closed surface as the volume reduces.
A
See lessExplanation: Consider the illustration of Pascal’s law, wherein a ball is pricked with holes
all over its body. After water is filled in it and pressure is applied on it, the water flows out
the holes uniformly. This is analogous to the flux flowing outside a closed surface as the
volume reduces.
Answer: a Explanation: Consider the illustration of Pascal’s law, wherein a ball is pricked with holes all over its body. After water is filled in it and pressure is applied on it, the water flows out the holes uniformly. This is analogous to the flux flowing outside a closed surface as the volume rRead more
Answer: a
See lessExplanation: Consider the illustration of Pascal’s law, wherein a ball is pricked with holes
all over its body. After water is filled in it and pressure is applied on it, the water flows out
the holes uniformly. This is analogous to the flux flowing outside a closed surface as the
volume reduces.
Answer: a Explanation: Consider the illustration of Pascal’s law, wherein a ball is pricked with holes all over its body. After water is filled in it and pressure is applied on it, the water flows out the holes uniformly. This is analogous to the flux flowing outside a closed surface as the volume rRead more
Answer: a
See lessExplanation: Consider the illustration of Pascal’s law, wherein a ball is pricked with holes
all over its body. After water is filled in it and pressure is applied on it, the water flows out
the holes uniformly. This is analogous to the flux flowing outside a closed surface as the
volume reduces.
Answer: a Explanation: Consider the illustration of Pascal’s law, wherein a ball is pricked with holes all over its body. After water is filled in it and pressure is applied on it, the water flows out the holes uniformly. This is analogous to the flux flowing outside a closed surface as the volume rRead more
Answer: a
See lessExplanation: Consider the illustration of Pascal’s law, wherein a ball is pricked with holes
all over its body. After water is filled in it and pressure is applied on it, the water flows out
the holes uniformly. This is analogous to the flux flowing outside a closed surface as the
volume reduces.
a) Explanation: Consider the illustration of Pascal’s law, wherein a ball is pricked with holes all over its body. After water is filled in it and pressure is applied on it, the water flows out the holes uniformly. This is analogous to the flux flowing outside a closed surface as the volume reduces.
a)
See lessExplanation: Consider the illustration of Pascal’s law, wherein a ball is pricked with holes all over its body. After water is filled in it and pressure is applied on it, the water flows out the holes uniformly. This is analogous to the flux flowing outside a closed surface as the volume reduces.