Temperature will not change since thermodynamic equilibrium will be attained irrespective of the mass of the iron and conduction which is flow of heat from hotter to colder medium can't take place since the temp of both are same...
10 c/35 c * 100 = 29%
No. Because the sun is hotter than 500 degrees Celsius and the sun is just a big ball of gas. So it is impossible for it to snow on the sun. Apparently the sun is going to explode in about 200000 years... two billion years if you don't understand the number.
No, it is highly unlikely for bacteria to exist on the sun due to its extreme heat and conditions. The sun is a giant ball of gas with temperatures reaching millions of degrees Celsius, which is inhospitable for any known form of life, including bacteria.
No, water does not ruin a golf ball. However, prolonged exposure to water or submersion may affect the performance of the ball by altering its weight or balance. It is recommended to dry the ball thoroughly before use to maintain its quality and performance.
There are none. Just approaching the sun would expose an organism to one million degrees Kelvin, more than any living creature could stand. Even if they could, there is no surface of the sun to live on: it is simply a ball of gases. Even tardigrades or "water bears," some of the hardiest creatures on earth, are usually killed by ultraviolet radiation from the sun.
neither, the water is not frozen at either temp
It does not mater the temuture of the air around you it will drop at the same speed, to change the falling rate you must change the mass!
2000 degrees Fahrenheit is approximately 1093 degrees Celsius.
You can get a dent out of a tennis ball by getting water, heated up to 100 degrees Celsius and place the tennis ball inside the water. Because a dent is like a small depressed place made by pressure, it easily comes out.
The freezing point of a tennis ball is the temperature at which its internal components, such as the rubber core and felt covering, solidify. This typically occurs at temperatures below 32 degrees Fahrenheit (0 degrees Celsius). The melting point of a tennis ball is the temperature at which these components begin to soften and turn into a liquid state, which is usually above 140 degrees Fahrenheit (60 degrees Celsius).
The metal ball would travel faster through water at 15 degrees Celsius, as colder water has lower friction compared to warmer water. This results in less resistance for the ball, allowing it to move more easily through the water at a higher speed.
the sun you %^*&!!! the sun is a giant burning ball of gas!!!!! the earth is a rock covered in water!!!! you should think about these questions before you type them in.
The steel ball would likely travel faster at 25 degrees Celsius because warmer temperatures generally result in faster movement of particles, which can increase the ball's speed. However, other factors, such as friction or launching force, can also influence the ball's speed.
40 degrees
The measurement used for hotness and coldness are degrees. There are two scales used Fahrenheit (F) and Celsius (C) with a little ball to the right of the measurement.
When you push a ball into water, it displaces the water around it. The ball experiences an upwards buoyant force due to the water it displaces, causing it to partially float. The deeper you push the ball into the water, the greater the buoyant force acting on it.
The Temperature of a body tends toward the temperature of its surroundings. It depends where the tennis ball is. If it is in a place of 10 degrees Celsius it will be 10 degrees Celsius after a long enough time of being there.