titanium
Spacecrafts are made to withstand space by using different types of materials such as beryllium and tungsten to help withstand high melting temperatures. There are also subsystems that help withstand launch loads and solar panels to generate electrical power.
Rockets have to withstand extreme temperatures during launch and reentry, intense vibrations during liftoff, and high speeds as they travel through Earth's atmosphere and beyond.
The heat shield is the part of the spacecraft that protects it from the high temperatures experienced during re-entry into the Earth's atmosphere. It is designed to withstand the intense heat generated by friction as the spacecraft re-enters the atmosphere at high speeds.
Scientists can design rockets with materials that can withstand high temperatures, such as heat-resistant alloys or ceramic tiles. Additionally, well-designed thermal protection systems can be used to dissipate heat away from sensitive components. Testing rockets under simulated high-temperature conditions can also help ensure they can withstand the heat during actual operation.
Liquid ammonia is often used to absorb heat in spacecrafts. It has a high heat capacity and can efficiently absorb and transfer heat away from critical components.
There are two non-metal materials that come to mind. Ceramics and diamond can withstand high temperatures.
Tungsten is a metal that can withstand the extreme temperatures and pressures found at the center of the Earth. It has a high melting point and is incredibly dense and strong, making it suitable for withstanding such harsh conditions.
Nonmetal materials that can withstand high temperatures include ceramics (such as alumina and zirconia), refractory metals (like tungsten and molybdenum), and certain composite materials (such as carbon-carbon composites). These materials have high melting points and good thermal stability, making them suitable for high-temperature applications.
a camel withstand high temperatures because they have stored water in their body
Yes, river rocks can generally withstand high temperatures without exploding in a fire due to their natural composition and ability to withstand heat.
The best type of super glue that can withstand high temperatures is cyanoacrylate super glue, also known as CA glue. It is heat-resistant and can withstand temperatures up to 180 degrees Celsius.
It is resistant to sulfates. It can withstand high temperatures. (It melts at around 3000 F.) It is resistant to sulfates. It can withstand high temperatures. (It melts at around 3000 F.)
The can stay in your freezer for 1 week and with stand high temperatures for 6 months
Nickel is a metal. It is classified as a transition metal and is known for its strength, corrosion resistance, and ability to withstand high temperatures. Nickel is commonly used in alloys, batteries, and various industrial applications.
Yes, nickel is a metal. It is a silvery-white, lustrous transition metal known for its resistance to corrosion and ability to withstand high temperatures. Nickel is commonly used in various industrial applications and alloys.
A crucible is a container that is able to withstand very high temperatures. The most common function of a crucible is to hold metal that is melted and formed into new materials.
One example of an oxide of a metal that is stable to heat is aluminum oxide (Al2O3). It has a high melting point and is commonly used in refractory materials due to its ability to withstand high temperatures.