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This is the volume of the water plus that of the object ‘Vol2’. In our example, Vol2 = 30 ml. Now use the following formula to calculate the volume of the object. Volume (object) = Volume (water + object) – Volume (water) Volume (object) = Vol2 – Vol1. Volume (object) = (30 – 13.33) Volume (object) = 16.66 ml.
Finding Volume—The Water Displacement Method Key Concepts • A submerged object displaces a volume of liquid equal to the volume of the object. • One milliliter (1 mL) of water has a volume of 1 cubic centimeter (1 cm3). • Different atoms have different sizes and masses.
Activity Sheet Answers Chapter 3, Lesson 2 Finding Volume—The Water Displacement Method DEMONSTRATION 1. Predict the densities of each sample by writing a phrase from the box on the line next to each sample. 2. Explain why you think each rod is either the most, medium, or least dense.
Solution: The buoyant force is the weight of the fluid that is displaced by an object submerged in it. We can write it as $F_b=m_f g$ or $F_b=\rho_f V_{dis}g$, where $m_f$ is the mass of the displaced fluid, and $V_{dis}$ is the volume of the object under the fluid surface.
21 lis 2023 · The volume of an irregular shaped object is typically calculated with the volume displacement method. With this method, an object is dunked into a known volume of water, and the water...
Look at the graduated cylinders below. Then, record the volumes without and with. the object. Finally, using the formula Vf-Vi (final volume - initial volume) calculate the volume of each object. Remember to label units on your answers. Initial Volume (Vi) =________.
The short answer is that we need to use the volume of the fluid displaced V f l u i d in the formula because the displaced fluid is the factor that determines the buoyant force. What's the longer answer?