Answer:
Explanation:
The expression to use to calculate the density of any substance is the following:
d = m/V (1)
Where:
m: mass (g)
V: Volume (mL or cm³)
Now, we don't have data for the volume of the substance, but the problem states that volume of the substance is three times more than the density, in other words, it means:
V = 3d (2)
With this, we can replace it in (1), and we can calculate the density still:
d = m / 3d (3)
Solving for d, we have the following:
m = 3d²
d² = m/3
d = √m/3 (4)
All we have to do now, is replace the value of the mass here and solve for density:
d = √10/3
d = √3.33
d = 1.82 g/cm³
This is the density of the substance
Answer:
10%
Explanation:
Out of the original layer, only ten percent is transferred to the next
Answer :
There are three processes involved in the conversion of ethane to ethanoic acid.
In first process, on the chlorination of the ethane in the presence of the sunlight or in the presence of U.V light, ethane converted into ethyl chloride.
In the second process, ethyl chloride react with the aqueous potassium hydroxide to give ethanol.
In the third process, ethanol react with an oxidizing agent (Alkaline potassium permanganate) to give ethanoic acid.
The reaction are shown below.
Use Newton’s Law to explain why a bowling ball will slow down and stop when rolled in a flat surface, like a street.
Answer:
Force is must to change the velocity of an object. Force is always equal to the mass of the object times its acceleration.
Explanation:
From the second law of Newton, it states that the force is the product of mass of an object and its acceleration. Here, when the bowling ball is rolling across a flat surface, frictional force acts on it which oppose the motion of the ball and causes deceleration of the ball. This is an example of rolling friction. Acceleration of the bowling ball depends directly to the force of friction and indirectly to its mass.