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A fixed quantity of gas at a constant pressure exhibits a temperature of 27 degrees Celsius and occupies a volume of 10.0 L. Use Charles's law to calculate: the temperature of the gas in degrees Celsius in atmospheres if the volume is increased to 16.0 L
-273 degrees Celsius is nearly 0 Kelvin or absolute zero. While it is believed that it is impossible to achieve a temperature of absolute zero, all gases will solidify before that happens. A pure gas should form perfect crystals.
You can't.Celsius is a measure of temperature.CM is a measure of volume.Currection from above, Centimeters is a measurement of lenge, not volume. However, yes, temperature cannot be converted into lenge.
kilogram, litre and degree Celsius.
I suppose you mean the formula for the variation in pressure. The simplest expression of this is, at a fixed temperature,and for a given mass of gas, pressure x volume = constant. This is known as Boyle's Law. If the temperature is changing, then we get two relations: 1. If the pressure is fixed, volume = constant x temperature (absolute) 2. If the volume is fixed, pressure = constant x temperature (absolute) These can be combined into the ideal gas equation Pressure x Volume = constant x Temperature (absolute), or PV = RT where R = the molar gas constant. (Absolute temperature means degrees kelvin, where zero is -273 celsius)
The volume of a gas is directly proportional to its temperature, according to Charles's Law. Therefore, the volume of a gas at 250 degrees Celsius will be larger than the volume at 0 degrees Celsius, assuming constant pressure. The exact ratio can be calculated using the formula V2/V1 = T2/T1, where V2 and T2 are the volume and temperature at 250 degrees Celsius, and V1 and T1 are the volume and temperature at 0 degrees Celsius.
A fixed quantity of gas at a constant pressure exhibits a temperature of 27 degrees Celsius and occupies a volume of 10.0 L. Use Charles's law to calculate: the temperature of the gas in degrees Celsius in atmospheres if the volume is increased to 16.0 L
Volume is measured in 3 dimensions. e.g. Height x width x depth. 2.50 x 10 has no volume - it is a rectangle.
The volume of one liter of air will increase because as the temperature increases, the air molecules gain energy and move faster, causing the air to expand. This relationship is described by Charles's Law, which states that the volume of a gas is directly proportional to its temperature in Kelvin, assuming constant pressure and amount of gas.
it depends on the volume of water and the salt content
I must assume that you are referring to 29.5 degrees Celsius. Normal human body temperatureis 37.0 degrees Celsius. The abbreviation for Celsius is C , such as 37.0 C. The temperature youhave given, 29.5 C , is far below the normal human body temperature.
50 grams and 96 degrees Celsius are not measurements of volume. The options provided are not related to volume either; 148 meters is a measurement of length and 259 liters is a measurement of volume.
The volume of a balloon will increase as the temperature increases between 0 degrees Celsius and 60 degrees Celsius. This is because the air inside the balloon will expand as it heats up, causing the balloon to inflate.
No, it does not. The volume of water changes according with it's temperature. Water, unlike other substances, it has a minimum volume at 4 degrees Celsius.
When water at zero degrees Celsius is heated, its volume initially decreases until it reaches its maximum density at 4 degrees Celsius. Beyond this temperature, as the water continues to heat up, it expands and its volume increases.
Water has its lowest volume at approximately 4 degrees Celsius. This is the temperature at which water reaches its maximum density before expanding as it freezes.
To find the volume of the gas at 152°C, you can use the Charles's Law equation, V1/T1 = V2/T2, where V1 is the initial volume (262 mL), T1 is the initial temperature (-35.0°C), V2 is the final volume (unknown), and T2 is the final temperature (152°C). Plug in the values and solve for V2 to find the volume of the gas at 152°C.