It has a much higher volume of water compared to the tea cup. It takes less energy to heat a small amount of liquid such as a tea cup.
He filled a bath half way with water then when he went in he found out that the water moved up, he wondered how that happened. So he started to study further into it....
Volume of a sphere = 4/3*pi*radius3 and legend has it that Archimedes was having a bath when he discovered the formula
A linear equation is an equation that can be written in the form: y=mx+b. An equation in this form can be graphed on a x/y coordinate plane, and the slope (m) can NOT be a vertical line, additionally it must pass the vertical line test; if a vertical line is drawn, no more than one y point may correspond to any one x point on the graph. The slope produced must be a line, so it must follow that the change in y is constant to the change in x. Filling up a bath tub w/ water. The amount of water in the tub (graphed along the y-axis) and the amount of time that passes (graphed on x-axis) is constant. Slope (m) is stated to be the volume over time, which would be let's say 5 gallons per minute (y axis / x axis) (rise over run) Walking a constant speed to school. Distance is y axis, time is x axis. Slope would be distance over time. If you move 2 meters per second, for 2 minutes (120 seconds) then this would produce a linear equation. MANY examples in everyday life can be graphed as a linear function, but the important qualification is that whatever corresponds to the y axis, such as volume or distance, is constant relative to your x axis, most commonly time (seconds, minutes, hours). However, in both my examples it's only linear if the change in volume/distance is CONSTANT over the change in time. So, if you fill up the bathtub for 2 minutes, turn it off, then turn it back on, this is not linear. Same goes for walking to school, if you walk at 2 meters per second, then speed up to 4 meters per second, then slow down to 1 meters per second, this is NOT a linear equation or linear graph because the change in y over the change in x is not constant anymore, it's variable.
A normal bath full of water. Sorry but this depends on units of energy that you are familiar with-. I will use caldepending where you are taug The enery required to raise the temperature of the a 1kg of water in a kettle from zero degrees to 100 is 100 kilocalories The bath contains more at least 20 kg of water, and the energy required to raise the temperature of that volume of water by 55 degrees is 20 X 55 = 1100 kcals
Bathtub at 45 degrees
The average bath water temperature is 30 degrees C. I like my baths to be about 40 degrees C :P
The average bath water temperature is 30 degrees C. I like my baths to be about 40 degrees C :P
That depends on whether you're talking about degrees Celsius or Fahrenheit.
The cup of water is as hot as the bath tub full of water as they are at the same temperature.
30-40 degrees
No. But it would be great for a bath.
You can take a bath if you are pregnant as long as the water does not exceed 98 degrees.
hey guys! normal bath water for most people is about 110 degrees fahrenheit and about 43 degrees celcius. I hope I helped! :) by the way if you want too know some answers about judaism then search the name lynlyn121. :)
A bath's temperature should be comfortable for the user. Preparing a bath for others takes some thought and consideration. Babies, for example, usually have a bath temperature of ideal temperature of 37 degrees C to 38 degrees C which is slightly warmer than normal body temperature. Athletes often"relax" in an ice water bath after a tough game to reduce pain. Somewhere around 46 to 50 C the body starts to be damaged by the heat in the water (especially for the elderly). A prolonged bath above 39 C makes the heart work harder. Temperatures from 60 to 70 C can cause immediate harm.
To heat whatever is in it to 65 C.