What is the total number of electron pairs that are shared between the two carbon atoms in a molecule of ethyne?(1) 1 (3) 3
(2) 2 (4) 4
Answers
Answer : The correct option is, (3) 3
Explanation :
The given molecule is, Ethyne
As we know that ethyne is an unsaturated hydrocarbon which contains triple bonds between the carbon-carbon atoms.
In unsaturated compounds, there are less number of hydrogen bonded with the carbon atoms.
The formula of ethyne molecule is,. In this molecule, there are triple bond is present between the two carbon atoms that means there are 3 pair of electrons present between the two carbon atoms.
Hence, there are 3 number of electron pairs that are shared between the two carbon atoms in a molecule of ethyne.
The structure of ethyne are shown below.
Related Questions
A solid substance is an excellent conductor of electricity. the chemical bonds in this substances are most likely1. ionic, because the valance electrons are shared between atoms2. ionic, because the valance electrons are mobile3. metallic, because the valance electrons are stationary4. metallic, because the valance electrons are mobile
Eisenhower, Kennedy, and Johnson all approved of the United States backing the South Vietnamese in their civil war.a. Trueb. False
The most common fuel for nuclear fission reactors is:a) coal b) krypton c) uranium-235 d) none of the above
2KI + Pb(NO3)2 → 2KNO3 + PbI2 Determine how many grams of KI are required to produce 1.2g of PbI2.
B.) melting ice
C.) condensing steam
D.) dissolving ammonium nitrate in water
Answers
Answer:
C.) condensing steam
Explanation:
Exothermic reactions are chemical reaction which energy is released to the environment in the form of heat . The overall energy of the reactant is greater than the energy of the product. The higher in energy of the reactant causes a release of heat to the environment. In exothermic reactions, enthalpy change is usually negative and is accompanied by the loss of energy in the form of heat or light.
Condensation is the change of water vapor to liquid . The conversion is an exothermic reaction as energy is release to the environment in the form of heat. The water vapor molecules has higher energy than liquid. The changes of water vapor to liquid causes a loss in energy of the water vapor. As the water vapor loss more energy, heat is been release to the surrounding.
All other reaction are endothermic in which heat is absorb from the environment except for condensation of steam.
The event that is an example of an exothermic reaction is condensing steam. The answer is letter C. An exothermic reaction is one in which there is a release of heat during the reaction. Dissolving sugar in water, melting ice and dissolving ammonium nitrate in water are all examples of an endothermic reaction.
Answers
N=m/M
N=332/95.2
N=3.487
dont forget to round your sig figs
Answers
You conduct experiments to test a hypothesis and then gather the data and analyze it to see whether the hypothesis is correct.
Answer:
gathering data
Explanation:
When you do an experiment you want to gather information to make a conclusion on your hypothesis.......-
Answers
Answer:
Average speed of the racer is 5.8 m/s.
Explanation:
Total distance covered by racer = D = 406 m
Total time taken racer= T = 70 seconds
The formula of an average speed is given by:
Average speed :
Average speed of the racer is:
5.8 m/s=406/70
1km = 100m
1h= 3600s
(5.8m/s)(1km/100m)(3600s/1h)
a. True
b. False
Answers
This statement is FALSE. Mercury was not first discovered in the sun. In fact, mercury or quicksilver was discovered by ancient Indians and Chinese even before 2000 BC. Its ores that are called cinnabar are used in traditional Chinese medicines. However, the effectiveness is not yet justified because of the toxicity of the element. Mercury is also used with thermometers both in clinical and lab uses. Nowadays, the use of it in thermometers is gradually disappearing because of its harmful properties.
Answers
Answer : The correct option is, (2) 10 g of water at 55°C
Explanation :
Average kinetic energy of the gas particle is directly proportional to the temperature of the gas particle.
Formula used :
where,
R = Gas constant
T = temperature
= Avogadro's number
From this we conclude that the kinetic energy is directly proportional to the temperature where 'R' and are constant. That means kinetic energy depends only on the temperature not on the mass.
(Higher the temperature, higher will be the kinetic energy)
Hence, the average kinetic energy of water molecules is greatest in 10 g of water at 55°C.
Final answer:
The sample with the highest average kinetic energy of water molecules is (2) 10 g of water at 55°C.
Explanation:
Kinetic energy is a fundamental concept in physics that describes the energy an object possesses due to its motion. It depends on both an object's mass and its velocity. Objects in motion have kinetic energy, and the faster they move or the more massive they are, the greater their kinetic energy. This energy can be transferred or transformed but is always conserved in a closed system.
The average kinetic energy of water molecules depends on the temperature of the water. The higher the temperature, the greater the average kinetic energy. In this case, the sample with the highest average kinetic energy would be (2) 10 g of water at 55°C. This sample has a higher temperature than the other options, therefore, the water molecules in this sample have the highest average kinetic energy.
Learn more about Average kinetic energy of water molecules here:
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