Osmosis
Excess calcium is moved between interstitial fluids and blood via active transport by calcium pumps in cell membranes. Excess potassium is moved through the Na+/K+ pump that actively transports potassium ions out of cells and into the blood in exchange for sodium ions.
An aluminosilicate is any of a variety of silicate minerals in which a proportion of the Si4+ ions are replaced by Al3+, with the excess negative charge being balanced by extra sodium, potassium, or calcium ions.
Calcium carbonate is for neutralising the excess of acid in the stomach.
None, unless there is metallic potassium in the reaction mixture. Assuming excess potassium metal is present then 14 moles of KBr can be produced. 7BaBr2 + excess potassium -----> 14KBr + 7 Ba
No
One mole of calcium phosphide on reaction with excess water produces calcium hydroxide and phosphine gas. This reaction can be represented as Ca3P2 + 6H2O → 3Ca(OH)2 + 2PH3.
Lymph.
An aluminosilicate is any of a variety of silicate minerals in which a proportion of the Si4+ ions are replaced by Al3+, with the excess negative charge being balanced by extra sodium, potassium, or calcium ions.
Blood
gg
calcium
Kidney
Calcium carbonate is for neutralising the excess of acid in the stomach.
no
None, unless there is metallic potassium in the reaction mixture. Assuming excess potassium metal is present then 14 moles of KBr can be produced. 7BaBr2 + excess potassium -----> 14KBr + 7 Ba
The lymphatic system. Excess interstitial fluid is drained from tissue spaces and returned to the blood.
One mole of calcium phosphide on reaction with excess water produces calcium hydroxide and phosphine gas. This reaction can be represented as Ca3P2 + 6H2O → 3Ca(OH)2 + 2PH3.
calcium leaking out