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Well, honey, pressure is like a clingy ex - it's always around. But to answer your question, in order to determine the pressure of a gas, you also need to know the temperature and the amount of gas present. So, without that additional information, I can't give you a specific pressure value for a volume of 60 cm3.
What else can I help you with?
What is the mass of a sponge that has a density of 0.25 g cm3 and a volume of 60cm3?
The mass can be calculated using the formula: mass = density x volume. Given density is 0.25 g/cm^3 and volume is 60 cm^3, mass = 0.25 g/cm^3 x 60 cm^3 = 15 grams. Therefore, the mass of the sponge is 15 grams.
What happens to volume if the temperature of a gas is decreased from 60 degrees Celsius to 30 degrees Celsius?
The volume of the gas will decrease. The gas molecules move faster when they are warmer, because more heat equates to more energy. The faster they move, the more space they will take up and the greater the volume. Therefore, if the temperature goes down, they have less energy and take up less space. This is shown in the ideal gas law: PV = nRT P = Pressure of the gas V = Volume n = mols of the gas R = ideal gas constant (8.314 J/molK) T = Temperature As you can see, if temperature is decreased and only pressure is allowed to change, with all other variables remaining constant, volume will also have to decrease to maintain the proportion.
If a box is 3cm by 2cm by 10 cm how much mass could it hold before if would sink in water?
To determine how much mass the box can hold before sinking in water, you need to calculate its volume and compare it to the volume of water it displaces when fully submerged. The buoyant force acting on the box must be equal to or greater than its weight for it to float. Given the dimensions of the box, find its volume, then calculate the weight of water displaced by that volume to determine the maximum mass it can hold before sinking.
Under a pressure of 200 kPa a confined gas has a volume of 2500 cubic meters The pressure acting on the gas is increased to 500 kPa What is the new volume of the gas if the temperature remains t?
Using the formula P1V1/T1 = P2V2/T2, we can find the new volume. Since the temperature remains constant, T1 = T2 and can be canceled out. Plugging in the values, we have (200 kPa)(2500 m^3) = (500 kPa)V2, solving for V2 gives us the new volume of gas as V2 = 1000 cubic meters.
How to Convert gas 60 liters to lbs?
To convert gas volume (liters) to weight (lbs), you need to know the density of the gas. The weight of gas depends on its type (e.g. gasoline, diesel, natural gas). Once you have the density of the gas, you can use the formula: Weight = Volume x Density.
Two cubic meters of a gas at 30 degrees Kelvin are heated at a constant pressure until the volume doubles. What is the final temperature of the gas?
60
What is the volume of a cuboid 10cm by 3cmby 2cm?
10*3*2 = 60 cm3
What is the mass of a sponge that has a density of 0.25 g cm3 and a volume of 60cm3?
The mass can be calculated using the formula: mass = density x volume. Given density is 0.25 g/cm^3 and volume is 60 cm^3, mass = 0.25 g/cm^3 x 60 cm^3 = 15 grams. Therefore, the mass of the sponge is 15 grams.
The pressure acting on 60 cubic meters of gas is raised from 236 kPa to 354 kPa The temperature is kept constant What new volume does the gas occupy?
Using Boyle's Law (P1V1 = P2V2), we can calculate the new volume of the gas. Rearranging the formula gives V2 = (P1/P2) * V1. Substituting the given values, we get V2 = (236/354) * 60 = 40 cubic meters. Therefore, the gas occupies 40 cubic meters at the new pressure.
What happens to volume if the temperature of a gas is decreased from 60 degrees Celsius to 30 degrees Celsius?
The volume of the gas will decrease. The gas molecules move faster when they are warmer, because more heat equates to more energy. The faster they move, the more space they will take up and the greater the volume. Therefore, if the temperature goes down, they have less energy and take up less space. This is shown in the ideal gas law: PV = nRT P = Pressure of the gas V = Volume n = mols of the gas R = ideal gas constant (8.314 J/molK) T = Temperature As you can see, if temperature is decreased and only pressure is allowed to change, with all other variables remaining constant, volume will also have to decrease to maintain the proportion.
What is the volume of a prism whose dimensions are 5cm x 3cm x 4cm?
5*3*4 = 60 cm3
How many cubes of edge 2 cm in cuboids 10cmx6cmx8cm?
Volume of cube = 2*2*2 = 8 cm3 Volume of cuboid = 10*6*8 = 480 cm3 So number of cubes in cuboid = 480/8 = 60
100 centimeters long 60 centimeters wide 40 centimeters high and the volume of water in it is 3000 centimeters3 how do you find the depth of the water?
depth = 3000/(100*60) = 0.5 cm 3000 cm3 = 3 liters total capacity = 100*60*40 = 240000 cm3 = 240 liters
What is the density of a substance if it has a mass of 60.00 g and displaces water from a volume of 15.0 ml?
You will mean 15 cc or cubic centimeter. The answer is 4g / cc ( 60 g divide 15 cc )
Sixty Liters of gas were collected over water when the barometer read 670 60 L of a gas collected over water when the barometer read 670 mm Hg and the temperature was 20 C What volume would the dr?
since we know that the total pressure is 670 mmhg and the pressure of water at 20 c is 17.5 mmhg, we use dalton's law. 670=17.5+ gas pressure 652.5=gas pressure by definition then we use the law P1V1T2=P2V2T1 tp find V2=47.9969 L
What is the state of matter of neon at 60 degrees Celsius?
Neon is a gas at room temperature and pressure, so it would still be a gas at 60 degrees Celsius.
A graduated cylinder has 32.0 mL of water in it A 3.0 cm3 rock is dropped into the graduated cylinder What is the new volume?
The rock's volume is simply the amount of water the rock displaced (52mL - 32mL), so 20mL. The density is mass over volume, so 40g/20mL, which simplifies to 2 g/mL: 40 divided by 20 is 2, and then the unit is just mass (g) over volume (mL).
