No, the temperature on Jupiter is much colder than on Earth. Jupiter is a gas giant planet located much farther from the sun, leading to much lower temperatures. Additionally, Jupiter's thick atmosphere traps heat causing temperature variations across the planet.
The force of gravity on Jupiter is much stronger than on Earth due to Jupiter's larger mass. Jupiter's gravity is about 2.5 times that of Earth.
It's much closer to its star than Jupiter is to the Sun.
Because you are so far away from Jupiter, and so much closer to the Earth.
Jupiter weighs around 1.8966 x 1027kg or 317.8 times that of Earth.
Yes, very much harmful.
a ml of 36n or 18m sulphuric acid should weigh approx 1.84g. This is because conc sulphuric acid's density is 1.84g/ml
I guess that depends on what you plan to do with it.
train contain to much static electricity due to its metallic body but trucks a truck discharges the static electricity to the earth, so if sulphuric acid is transported by train that would cause an explosion due the reaction of sulphuric acid and static electricity
The acid in a battery is sulphuric acid. It is highly corrosive and hazardous to touch. Acid spills must be carefully cleaned with products which neutralize the acid. Personal protective wear, at a minimum gloves and face protection, should be worn when cleaning acid spills.
It depends on the concentrations (H2SO4 at 1.5M is considered corrosive). Assuming however that the two solutions are of the same concentrations, the answer would be sulpuric acid. Apart from causing acid burns, H2so4 (Sulphuric Acid) reacts exothermically with water. As you probably know, the human body is composed much of water, so apart from just acid burns, thermal burns are also likely to be inflicted on the poor person.
1,000,000 grams of sulphuric acid. one mole of sulphuric acid is 94.1 grams 1,000,000 divided by 94.1 is 10627 if you take two of this amount to make the sulphur multiplyable we get 10625 we then do 10625 X (H4S2O8) which gives us S21250 21250 divided by 32.1 (mass of sulphur) equals 662 there are 662 grams of sulphur in one tonne of sulphuric acid.
For preparation of 4N solution of sulphuric acid Dissolve 196 gm H2SO4 in 1000 ml DM water. Calculation N E V Weight = ------------ 1000 Where N= Normality E= Equivalent weight V= Volume
Sulphuric acid is transported in road tankers because it is a highly corrosive and reactive substance that can damage railway infrastructure and containers. Road tankers offer more flexibility in reaching different destinations and can navigate smaller roads closer to the final destination, compared to trains. Additionally, in case of a spill or accident, it can be easier to contain and manage on the road compared to a railway track.
Coal is of many types. One of them is bituminous coal. When it is burned, it releases very much sulphur gas. This gas combines with the water vapour to form sulphuric acid. It comes down as acid rain.
That lad's sulphuric acid, H2SO4. It's a funky little molecule in which a sulphate ion (SO42-) is stabilised by a pair of hydrogen ions (2H+). It works quite well as a reducing agent, as it has twice as much hydrogen to donate as (for instance) hydrochloric acid.
You need to have it stochiometrically balanced so that in the area of organic chemistry for instance, you can directly associate how many moles of a product should form (percentage yield). Equally in analytical chemistry, for acid/base titrations for instance, you need to know the stochiometric amount of reactants to calculate how much of an unknown there is. For example, if you have NaOH reacting with an acid, if you said there was a 1:1 equivalence between base and acid and your acid was sulphuric acid (1:2 equivalence), you would calculate that there was half of the amount of sulphuric acid in sample as there actually was.