Physics, asked by tanisha2088, 1 year ago

Compute the fractional change in volume of a glass slab, when subjected to a hydraulic pressure of 10 atm.​

Answers

Answered by jack6778
4

Answer:

Hydraulic pressure exerted on the glass slab, p = 10 atm = 10 × 1.013 × 105 Pa

Bulk modulus of glass, B = 37 × 109 Nm–2

Bulk modulus, B = p / (∆V/V)

Where,

∆V/V = Fractional change in volume

∴ ∆V/V = p / B

= 10 × 1.013 × 105 / (37 × 109)

= 2.73 × 10-5

Hence, the fractional change in the volume of the glass slab is 2.73 × 10–5.

Answered by Aastha6878
2

Answer:

Hydraulic pressure exerted on the glass slab, p = 10 atm = 10 × 1.013 × 105 Pa

Bulk modulus of glass, B = 37 × 109 Nm–2

Bulk modulus, B = p / (∆V/V)

Where,

∆V/V = Fractional change in volume

∴ ∆V/V = p / B

= 10 × 1.013 × 105 / (37 × 109)

= 2.73 × 10-5

Hence, the fractional change in the volume of the glass slab is 2.73 × 10–5.

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