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The volume of the three coins is 33 ml. This can be calculated by subtracting the initial volume of water (20 ml) from the final volume of water (53 ml), which gives the volume occupied by the three coins.
initial molarity*initial volume= final molarity*final volume Initial molarity= 1.50M Initial volume= 20.00ml Final Volume=150.0ml Thus final molarity =1.50M*20ml/150ml=0.200M. New molar concentration= final molarity
When water is added to a beaker filled with sand, the volume of the mixture will increase, but not proportionately to the amount of water added. This is because the water fills the spaces between the sand particles, allowing for some of the water to displace the air pockets while still contributing to the overall volume. As a result, the final volume will be greater than the initial volume of the sand alone, but less than the sum of the individual volumes of sand and water.
Final volume minus initial volume refers to the difference between the volume at the end of a process or measurement and the volume at the beginning. It indicates the change in volume that occurred between the two points.
Due to the way things dissolve in water, it would be almost immeasurably over 150ml. So basically your answer is 150ml because the real answer would be like 150.0003 or something like that.
To measure volume using water displacement, you fill a graduated cylinder with a specific volume of water, note the initial volume, then submerge the object in the water. The increase in water level is the volume of the object. Subtract the initial volume from the final volume to get the volume of the object.
The volume occupied by water will not change, it will remain 11.2cm3 (1ml =1cm3). However, the final volume level will be 11.94cm3, since the silver pellets will displace the same volume of water that it occupies.
Displacement is the process used to find the volume of an irregular object. This is done by submerging the object in water and measuring either the height the water rises or the volume of water that overflows the container.
Yes, you can make 10 volume peroxide by diluting 30 volume peroxide with water. To calculate the amount needed, you can use the formula: C1V1 = C2V2, where C1 is the initial concentration (30 volume), V1 is the volume you want to find, C2 is the final concentration (10 volume), and V2 is the final volume (the sum of V1 and the water volume added).
To calculate the final volume of the diluted solution, you can use the formula for dilution: M1V1 = M2V2, where M1 and V1 are the initial concentration and volume, and M2 and V2 are the final concentration and volume. Plugging in the values, you can solve for V2, the final volume of the solution.
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The correct method for finding the volume of an irregular object is to use water displacement. Fill a container with water, note the initial volume, then submerge the irregular object in the water. Measure the new volume of water displaced by the object. The difference in the initial and final volumes is the volume of the irregular object.
The volume of the three coins is 33 ml. This can be calculated by subtracting the initial volume of water (20 ml) from the final volume of water (53 ml), which gives the volume occupied by the three coins.
Yes, you can determine the density of chloroform by measuring its mass and volume using water displacement method. You'll need a known volume of water, measure its initial volume in a graduated cylinder, then add chloroform which will displace the water and measure the final volume. By knowing the mass of chloroform and the change in volume of water, you can calculate the density of chloroform.
To find the final concentration of a solution after dilution, you can use the formula: (C_1V_1 = C_2V_2), where (C_1) is the initial concentration, (V_1) is the initial volume, (C_2) is the final concentration, and (V_2) is the final volume. Plug in the values for the initial concentration, volume, and final volume to calculate the final concentration of HCl.
Usually water displacement is used to determine the volume of an object. When the object is added to the water, the amount of displacement can be measured. I don't know if there is an equation to do this, but it most likely involves subtracting the final volume from the initial volume.~Jeff Johnsonwww.jeffjohnsonis.com
To use displacement cans, fill them with a known volume of liquid and then immerse the object you want to measure in a tank/container filled with water. The increase in water level corresponds to the volume of the object. Subtract the initial water level from the final water level to determine the volume of the object.