To determine which component experienced a greater change in temperature, you would need to compare the initial and final temperatures of both the aluminum and the water. Generally, aluminum has a lower specific heat capacity than water, meaning it can experience a greater temperature change with the same amount of heat transfer. Therefore, if both components were subjected to the same heat transfer, the aluminum would typically exhibit a greater change in temperature than the water.
A neutral aluminum atom has 13 electrons. However, an aluminum ion has a greater or fewer number of electrons, and is therefore positively or negatively charged.
The nucleus of an aluminum atom weights half that of an iron atom. Not only that, but the spacing between aluminum atoms is greater (its fluffier) so the two effects make aluminum less dense.
The density of steel is greater than that of aluminium, A centimetre cube of each, if placed on a weighing balance would show that the steel has greater density because its side of the balance arm would sink.
In brass, which is an alloy of copper and zinc, copper is the solvent (the component present in greater quantity) and zinc is the solute (the component dissolved in the solvent).
Hi, heat transferred = mass x specific heat capacity x rise/fall in temperature If heat is lost then fall in temperature If heat is gained then rise in temperature. More the transfer then greater the difference in temperature.
no a vector cannot have a component greater than the magnitude of vector
can a vector have a component greater than the vector magnitude
No, a vector's component cannot be greater than the vector's magnitude. The magnitude represents the maximum possible magnitude of a component in any direction.
No.
No.
The monsoon winds are responsible for the rainfall experienced over a greater part of India.
Water has a greater density than aluminum. The density of water is approximately 1 gram per cubic centimeter, while the density of aluminum is about 2.7 grams per cubic centimeter.
No a vector may not have a component greater than its magnitude. When dealing with highschool phyics problems, the magnitude is usually the sum of two or more components and one component will offset the other, causing the magnitude to be less then its component
No.
No, a vector component is a projection of the vector onto a specific direction. It cannot have a magnitude greater than the magnitude of the vector itself.
No.
No, a component of a vector cannot be greater than the magnitude of the vector itself. The magnitude of a vector is the maximum possible value that can be obtained from its components.