No. Boiling point is an intensive physical property, which means it does not matter how large the sample is.
It depends on the size of the cup.
About 50 mils.
A standard water bottle typically holds around 16.9 ounces (500 milliliters) of water.
A glass that holds one pint will hold more water compared to a one cup measuring cup, as 1 pint is equivalent to 2 cups.
How many ounces of water is equal to a 3 x 5 cup
Assuming an average bathtub has a volume of around 40-60 gallons, which is equivalent to 5,120-7,680 cups of water. A single cup can hold approximately 16 pennies, so the total number of pennies that can fill the average bathtub would be around 81,920-122,880 pennies. This calculation is based on the assumption that the pennies are stacked neatly and compactly without any gaps.
well my Maltese puppy loves the water shes a tea cup and she just injoys it ( in the bathtub)
It depends on the size/shape (length, width and depth OR circumference and depth) of the bathtub. Unless you provide measurements of the tub, it is impossible to answer this question. However for rough estimation, A standard Japanese bath contained about 500 L of water and a metric cup is 250 ml thus it would need around 2,000 cup of water to fill a bath tub. European bathtub would have similar volume of containment unless it is an order specifics tub.
I'm not sure but i think its either a cup, a gallon, a quart or a pint. ps. check it on google. if not then your going to have to Guess :) LMFAO ROCKS PARTY ROCK ANTHEM :-)
No.
No! It is imosible!
A standard cup will hold 1/4 pint of liquid
that means the cup can hold 220ml of water
If the cup plus the wood weighs less than all the water that the cup could hold, then the whole thing will float in the water. If the cup plus the wood weighs more than all the water that the cup could hold, then the whole thing will sink in the water. But, after the cup fills with water, the two blocks of wood will float on the surface, while the cup goes to the bottom.
No. Boiling point is an intensive physical property, which means it does not matter how large the sample is.
Too many. It depends on the volume of the pool.