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Living tissues typically react more like a buffer than like water. This is because living tissues do not move easily.
What else can I help you with?
Why is water a good pH buffer?
Water acts as a pH buffer because it can accept or donate protons, helping to stabilize the pH of a solution. This is due to the presence of both water molecules and hydronium ions, which can react with acids or bases to maintain a relatively constant pH.
Are living tissues more like sodium phosphate or water?
Considering that they are made up of up to 80% water, living tissues are more like water than sodium phosphate. Not all tissues feature this much water, though, with adipose tissue containing only 10%.
Do not need water living things?
Some living things, like certain desert plants and animals, have adapted to survive in low-water environments by storing water in their tissues or having specialized ways of conserving water. These adaptations allow them to thrive in conditions where water availability is limited.
How do prepare 1X TE Buffer from 5X TE Buffer?
To prepare 1X TE buffer from 5X TE buffer, you would dilute the 5X TE buffer by mixing 1 part of the 5X buffer with 4 parts of water. For example, mix 1 ml of 5X TE buffer with 4 ml of water to obtain 5 ml of 1X TE buffer.
Why can a buffer only buffer against a small amounts of acid or base?
A strong acid and a strong base will react together to produce a neutral salt. E.g., HCl (strong acid) and NaOH (strong base) will react together to form H20 and NaCl (salt). The salt is neutral (if you dump table salt into water, the solution will be neutral) this is because the Na+ and Cl- are perfectly happy being charged atoms. If you have something that doesn't really like to be ionized, which is a weak acid or base (for example acetic acid, (vinegar) which is only 1.1% ionized (charged) in a water solution) will only be ionized if something forces it to be ionized, i.e., a strong acid or base. When there is a mixture of a weak acid and its conjugate salt (or weak base and its conjugate salt) a buffer is formed. This is due to the fact that if you add some strong acid it will simply react with the conjugate salt, and if you add some strong base it will react with the weak acid. This is how they "buffer solutions" by keeping things pretty balanced. So to answer your question, a buffer must contain something that is only weakly reactive, and can react further when the need is present. A strong acid/base will totally react, so there is nothing left over to do any buffering.
Do living tissue react more like water or more like a buffer?
Living tissues typically react more like a buffer than like water. This is because living tissues do not move easily.
Why is water a good pH buffer?
Water acts as a pH buffer because it can accept or donate protons, helping to stabilize the pH of a solution. This is due to the presence of both water molecules and hydronium ions, which can react with acids or bases to maintain a relatively constant pH.
Are living tissues more like sodium phosphate or water?
Considering that they are made up of up to 80% water, living tissues are more like water than sodium phosphate. Not all tissues feature this much water, though, with adipose tissue containing only 10%.
What is the relationship between the hydrolysis of salt and the pH of buffer solutions?
The hydrolysis of salt can affect the pH of buffer solutions by either increasing or decreasing it. When a salt undergoes hydrolysis, it can release ions that can either react with water to produce acidic or basic solutions, thus impacting the pH of the buffer solution.
How does carbon dioxide react with fresh water as compared to salt water?
Carbon dioxide reacts with fresh water to form carbonic acid, which can lower the pH of the water and make it more acidic. In contrast, in salt water (ocean water), carbon dioxide reacts with the saltwater to form bicarbonate ions, which can act as a buffer and help to maintain the pH of the water.
A buffer is made by dissolving H3PO4 and NaH2PO4 in water. a. write an equation that shows how this buffer neutralizes a small amount of acids. b. write an equation that shows how this buffer neutr?
a. H3PO4 donates H+ ions to react with additional acid, neutralizing it: H3PO4 + HX → H2PO4- + H2X b. NaH2PO4 accepts H+ ions to react with additional base, neutralizing it: NaH2PO4 + MOH → Na2HPO4 + H2O
What elemnts make up a living system?
There are 5 elements: Growth, Need Water, Reproduce, React to changes, and Movement. If it does not do all these things, then its not living.
What is the PH when buffer is added to water?
Since we do not know the buffer or its concentration, we cannot provide an answer.
Do not need water living things?
Some living things, like certain desert plants and animals, have adapted to survive in low-water environments by storing water in their tissues or having specialized ways of conserving water. These adaptations allow them to thrive in conditions where water availability is limited.
How do prepare 1X TE Buffer from 5X TE Buffer?
To prepare 1X TE buffer from 5X TE buffer, you would dilute the 5X TE buffer by mixing 1 part of the 5X buffer with 4 parts of water. For example, mix 1 ml of 5X TE buffer with 4 ml of water to obtain 5 ml of 1X TE buffer.
Why can a buffer only buffer against a small amounts of acid or base?
A strong acid and a strong base will react together to produce a neutral salt. E.g., HCl (strong acid) and NaOH (strong base) will react together to form H20 and NaCl (salt). The salt is neutral (if you dump table salt into water, the solution will be neutral) this is because the Na+ and Cl- are perfectly happy being charged atoms. If you have something that doesn't really like to be ionized, which is a weak acid or base (for example acetic acid, (vinegar) which is only 1.1% ionized (charged) in a water solution) will only be ionized if something forces it to be ionized, i.e., a strong acid or base. When there is a mixture of a weak acid and its conjugate salt (or weak base and its conjugate salt) a buffer is formed. This is due to the fact that if you add some strong acid it will simply react with the conjugate salt, and if you add some strong base it will react with the weak acid. This is how they "buffer solutions" by keeping things pretty balanced. So to answer your question, a buffer must contain something that is only weakly reactive, and can react further when the need is present. A strong acid/base will totally react, so there is nothing left over to do any buffering.
Why is water one of the most important natural resources we have?
without water,nothing could live,because all living things must contain some water in their body tissues
