R1-all tiles & other cleaning
R2-Is all cleaner
R3-toilet cleaner,tiles cleaner
R4-polishing
R5-room freshner
R6-toilet cleaner
R1 to R6 are risk phrases in the field of chemical safety. They are used to convey specific hazards associated with different chemicals. For cleaning purposes, it's important to refer to the Safety Data Sheet (SDS) for each specific chemical to understand its hazards, safe handling procedures, and potential risks to health and safety.
Saponification is the hydrolysis of fat in presence of caustic soda (NaOH), the products are Soap and Glycerin CH2-CO-R1 CH2-OH R1-COONa | | CH-CO-R2 + 3NaOH --------> CH-OH + R2-COONa | | CH2-CO-R3 CH2-OH R3-COONa (Fat) (Glycerin) (Soap)
The formula used to calculate the area of a circle is A r2, where A represents the area and r is the radius of the circle.
Because a ketone requires there to be a carbon attached to both sides of the ketone group. Any less, and it would be an aldehyde.
Tryptophan is a derivative of alanine and contains alkyl side chains. Tryptophan belongs to the aromatic group and is non-polar and hydophobic. Tryptophan has a functioning indole group which can hydrogen bond donate and is often in contact with the solvent (water) in folded proteins.Alanine is non-polar as well and can also hydrogen bond and is called an aliphatic R group amino acid and is hydrophobic.The biologically important amino acids have the amino group attached to the carbon atom next door to the -COOH group.Amino acids have the general structural molecular formula -NH2CHRCOOH. They have two important functional groups (a functional group means a group of atoms in a molecule that have characteristic chemical reactions regardless of the rest of the molecule): carboxylic acid group -COOH and an amine group -NH2.Two amino acids can undergo a condensation reaction to form a dipeptide. Further condensation reactions result in a polypeptide. The amino acid units are linked by peptide bonds (sometimes called peptide links).R1-COOH + R2-NH2 --> R1-CO-NH-R2 + H2O R=a side group.Tryptophan is a derivative of alanine and contains alkyl side chains. Tryptophan belongs to the aromatic group and is non-polar and hydophobic. Tryptophan has a functioning indole group which can hydrogen bond donate and is often in contact with the solvent (water) in folded proteins.Alanine is non-polar as well and can also hydrogen bond and is called an aliphatic R group amino acid and is hydrophobic.The biologically important amino acids have the amino group attached to the carbon atom next door to the -COOH group.Amino acids have the general structural molecular formula -NH2CHRCOOH. They have two important functional groups (a functional group means a group of atoms in a molecule that have characteristic chemical reactions regardless of the rest of the molecule): carboxylic acid group -COOH and an amine group -NH2.Two amino acids can undergo a condensation reaction to form a dipeptide. Further condensation reactions result in a polypeptide. The amino acid units are linked by peptide bonds (sometimes called peptide links).R1-COOH + R2-NH2 --> R1-CO-NH-R2 + H2O R=a side group.
yes press R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2,R1,R2, then press select to complete the entire game
R1 to R6 are risk phrases in the field of chemical safety. They are used to convey specific hazards associated with different chemicals. For cleaning purposes, it's important to refer to the Safety Data Sheet (SDS) for each specific chemical to understand its hazards, safe handling procedures, and potential risks to health and safety.
R1, R1, R2, R2, Right Trigger, Left Trigger, R1, R1, R2, R2.
r1 r2 left left left r1 r1 r2 r2
R = r1*r2/r1+r2
Series, R1 + R2 +R3 etc,,, Parallel 1/R1+R2+ R3,,,,If you have know resistors. If not just use. E/I x R
Lateral Surface Area = π(r1 + r2)s = π(r1 + r2)√((r1 - r2)2 + h2)Top Surface Area = πr12Base Surface Area = πr22Total Surface Area = π(r12 + r22 + (r1 * r2) * s) = π[ r12 + r22 + (r1 * r2) * √((r1 - r2)2 + h2) ]
R1, L2, Square, Circle, R1, R2, L2 All Weapons L1, R1, L1, L2, Square, Square, Circle Unlock all Missions L1, L1, Square, Circle, L1, R1, Circle Unlock all Vehicles Square, Square, L1, R1, L2, R2, R2 Invincibility (Doesn't work in Story mode) R1, R2, R1, R2, Square, Circle, Square Unlimited Ammo Circle, Circle, L1, L2, R1, R2, Square Immunity R1, L2, Square, Circle, R1, R2, L2 All Weapons L1, R1, L1, L2, Square, Square, Circle Unlock all Missions L1, L1, Square, Circle, L1, R1, Circle Unlock all Vehicles Square, Square, L1, R1, L2, R2, R2 Invincibility (Doesn't work in Story mode) R1, R2, R1, R2, Square, Circle, Square Unlimited Ammo Circle, Circle, L1, L2, R1, R2, Square Immunity R1, L2, Square, Circle, R1, R2, L2 All Weapons L1, R1, L1, L2, Square, Square, Circle Unlock all Missions L1, L1, Square, Circle, L1, R1, Circle Unlock all Vehicles Square, Square, L1, R1, L2, R2, R2 Invincibility (Doesn't work in Story mode) R1, R2, R1, R2, Square, Circle, Square Unlimited Ammo Circle, Circle, L1, L2, R1, R2, Square Immunity R1, L2, Square, Circle, R1, R2, L2 = All Weapons L1, R1, L1, L2, Square, Square, Circle = Unlock all Missions L1, L1, Square, Circle, L1, R1, Circle = Unlock all Vehicles Square, Square, L1, R1, L2, R2, R2 = Invincibility (Doesn't work in Story mode) R1, R2, R1, R2, Square, Circle, Square = Unlimited Ammo Circle, Circle, L1, L2, R1, R2, Square = Immunity
For a conical frustum:Lateral Surface Area = π(r1 + r2)s = π(r1 + r2)√((r1 - r2)2 + h2)Top Surface Area = πr12Base Surface Area = πr22Total Surface Area = π(r12 + r22 + (r1 * r2) * s) = π[ r12 + r22 + (r1 * r2) * √((r1 - r2)2 + h2) ]
Right,R2,circle,R1,L1,square,R1,R2
If two planets are in orbits with radii of R1 and R2, the distance between them varies from R2-R1 to R2+R1.
Right,R2,circle,R1,L2,Square,R1,R2