A)16 protons
b)For neutron,the formula is given by A=Z+N where A is the mass no=32 and Z is atomic no=16 and N is the neutron no=? So to find N , A-Z=N so 32-16 so neutron is 16
c)sulphur
Answer:
CH3COOH
Explanation:
CH3COOH has the highest boiling point because it participates in the strongest intermolecular interactions. The -OH group can participate in hydrogen bonding with other -OH groups. Hydrogen bonds are very strong because they are the result of large partial positive charge on the hydrogen and large partial negative charge on the oxygen. When surrounded by other -OH groups, the partial positive charge on the hydrogen can form temporary bonds with the partial negative charge of an oxygen on another molecule. The stronger the intermolecular interactions, the more difficult they are to overcome, thus increasing the boiling point.
The strongest IMF the other molecules participate in are dipole-dipole. These interactions are not as strong as hydrogen bonding.
Answer:
electron configuration Cesium Electronic Configuration [Xe] 6s1
Explanation:
Answer and Explanation:
Temperature: The ideal temperature for photosynthesis to be performed is 35ºC. This is because this is the ideal temperature range for which enzymes related to photosynthesis can act, and these enzymes can be denatured at higher or lower temperatures and denatured enzymes do not work properly.
Light intensity: Chlorophyll better absorbs the light intensity in the lengths of 450-475 nm and 650-675 nm. These intensities present the blue and orange red spectra.
CO2 levels: The ideal CO2 limit for performing photosynthesis is 0.3%. Above this limit the photosynthetic process can have harmful changes.
Oxygen production: Ideally, photosynthesis will release an oxygen molecule into the atmosphere, from each water molecule that the plant has absorbed.
Answer:
Explanation:
Polyatomic ions are ions (usually anions) that are made up of more than one atom. In order to determine the charge of anions, one can first identify the charge of the metal (which forms the cation) in a compound (which is usually easy to know) before predicting the charge of the anion. The charges are usually exchanged to form denominator of the other reacting atom/molecule, but if divisible, they are divided first before the exchange.
(a) The polyatomic ion in KNO₂ is NO₂ with the ionic equation below showing it's charge
KNO₂ ⇒ K⁺ + NO₂⁻
From the above, we can deduce that the charge of NO₂ is "1-"
(b) The polyatomic ion in CaSO₄ is SO₄ with the ionic equation below showing it's charge
CaSO₄ ⇒ Ca²⁺ + SO₄²⁻
The charge of SO₄ from the above equation is "2-"
(c) The polyatomic ion in Mg(NO₃)₂ is NO₃ with the ionic equation below showing it's charge
Mg(NO₃)₂ ⇒ Mg²⁺ + NO₃⁻
From the above equation, it can be deduced that the charge of NO₃ is "1-"