the atmospheres temperature changes the candle in size. i am a scientist, and have done this experiment many times. believe in my answer, for my answer is the ultimate truth.
No, the candle will not burn because the flame will consume the oxygen inside the bell jar, creating a vacuum and extinguishing the flame. Oxygen is necessary for combustion to occur, and without it, the candle cannot burn.
If it is warm outside, like in spring or summer, then it will burn faster because the environmental temperature is warmer, causing the candle to melt. When a candle is burned inside, it will not burn as fast because there is no extra push in melting it.
Yes. The wick goes all accross the candle. You simply burn the bottom of the candle a little and the wick will stick if the bottom burns enough. So you lay the candle and stick it on a square object and light both ends of the candle.
No, a candle in a jar will not last forever. The candle will eventually burn out as it consumes the wax and wick. The duration of the candle depends on factors such as the size of the candle, the quality of the wax, and the environmental conditions.
Yes, a candle tends to burn the brightest towards the end as the heat and flame are concentrated due to the decreasing amount of wax remaining to be consumed. This concentration typically results in a more intense and brighter flame.
actually the color does not effect how fast the candle burn, i got confused of " Does candle's color effect how candle's burn?"but i think the color does not effect how candle burns. But some people will think that the white or yello candle will burn slower because color will obsorb the heat more. Hope i have answered your question.
The temperature of a candle jar inhibits the growth of psychrotrophs, and the average temperature inside the candle jar is 30 degrees Fahrenheit.
No, But Chuck Norris does
Candle wax can provide fuel for the flame, allowing the candle to burn. It also helps to shape and hold the wick in place. Additionally, certain types of candle waxes can impact factors such as burn time, scent throw, and appearance of the candle.
Typically, a room temperature candle will burn faster than a cold candle. A rate of burn is determined by the wick effect. The flame heats the wax beneath the wick, pulling the wax upwards along the wick to provide fuel. The heat evaporates at the top of the flame. Wax that is cold takes more energy to heat and melt, thus slowing the rate at which the wax is consumed
Yes, a candle holder can affect the burn rate of a candle. A holder that fits the candle properly, shields it from drafts, and allows for proper airflow can help the candle burn more evenly and slowly. On the other hand, an improperly sized or ventilated holder may cause the candle to burn faster or unevenly.
No, a clinical thermometer is not suitable for measuring the temperature of a candle flame. Candle flames burn at temperatures much higher than the range typically measured by a clinical thermometer. To measure the temperature of a candle flame, a specialized high-temperature thermometer or pyrometer would be more appropriate.
Yes, room temperature can affect the burn rate of a candle. Candles may burn faster in warmer temperatures as the heat can melt the wax faster. In colder temperatures, candles may burn slower due to the wax hardening more quickly.
No, frozen candles do not burn faster than room temperature candles. In fact, the cold temperature may actually cause the frozen candle to burn slower due to the wax needing to thaw and melt before it can be consumed by the flame.
A candle may burn longer with a plant nearby due to the moisture released by the plant through a process called transpiration. This moisture can increase humidity in the air, which can affect the combustion of the candle wax, potentially leading to a more efficient burn. Additionally, the presence of a plant can help maintain a stable temperature and reduce drafts that might otherwise extinguish the flame. However, the effect is generally minimal and not a primary reason for longer burn times.
A paffin wax candle is used to heat up a can of water. The candle had a mass of 15.75g before the burn and 14.20g after the burn. The can contained 250.0 of water at an initial temperature of 13.0 C. What is the heat of combustion in kJ/g of paraffin? The specific heat capacity of water is 4.184 J/(g C)
No, putting a candle in a fridge will not help it burn. In fact, the cold temperature of the fridge can affect the candle's ability to burn properly by slowing down the melting of the wax and potentially causing the wick to extinguish. It is best to keep candles at room temperature for optimal burning.