This short document contains two brief sections labeled "Test slide 1" and "Test slide 2" but provides no other details or context about the content of the slides. The document gives a high-level overview of two slides being tested but does not convey any meaningful information about their substance or purpose.
The cube has side length l and volume V=l^3. The document calculates the pressure p required using the formula p=BΔV/V, where B is a constant and ΔV is the change in volume. It shows that ΔV/V ≈ 3Δl/l. Plugging in the values for a cube where the side length increases from 85.0 cm to 85.5 cm, it calculates the required pressure p is approximately 2.4 × 10^9 N/m^2.
This short document contains two brief sections labeled "Test slide 1" and "Test slide 2" but provides no other details or context about the content of the slides. The document gives a high-level overview of two slides being tested but does not convey any meaningful information about their substance or purpose.
The cube has side length l and volume V=l^3. The document calculates the pressure p required using the formula p=BΔV/V, where B is a constant and ΔV is the change in volume. It shows that ΔV/V ≈ 3Δl/l. Plugging in the values for a cube where the side length increases from 85.0 cm to 85.5 cm, it calculates the required pressure p is approximately 2.4 × 10^9 N/m^2.