To prepare a 3% acetic (ethanoic) acid solution, you must first standardise the ethanoic acid. This question assumes that has already been done.
To make the concentration 3%, there must be 30g per 1000mL (30gL-1). Dissolve or mix in 30g of ethanoic acid per 1000ml (1L). Pipette this into aliquots of 100mL samples. You now have a 3% ethanoic/acetic acid solution.
To prepare 100 mL of 3M hydrochloric acid, you would need to dilute a concentrated hydrochloric acid solution with a concentration greater than 3M. For example, you could measure 25 mL of concentrated 12M hydrochloric acid and dilute it with 75 mL of water to make a total volume of 100 mL with a concentration of 3M. Always remember to add acid to water slowly and with constant stirring to prevent splattering and ensure safety.
C1V1=C2V2 This is the equation you need to prepare your solution. In order to see how much of solution 1, in your case 3M HCl, you need solve for V1. So Divide (1MHCl x 100mL) by 3M HCl.
Or
(1M)(100mL)/(3M) = 33.33mL
Hydrochloric acid has a molar mass of 36.5 grams per mole. To prepare 100 mL of a 3M solution add 10.95 grams of HCl to 100 mL water.
To prepare 1000 mL of 3M HCl solution, you would need to mix 250 mL of concentrated hydrochloric acid (typically around 12M concentration) with 750 mL of water. Always remember to add acid to water to avoid splattering.
3M HCl is a dilute hydrochloric acid solution with a concentration of 3 moles per liter, while 6M HCl is a more concentrated hydrochloric acid solution with a concentration of 6 moles per liter. This means that 6M HCl is more acidic and will be stronger in terms of its corrosive properties compared to 3M HCl.
To neutralize the 25ml of 3M acid, you would need to find the number of moles of acid present, which is 25ml * 3M = 75 millimoles. Then, you would need the same number of millimoles of the 8M base to neutralize it, so you would need 75 millimoles / 8M = 9.38ml of the 8M base.
To determine the volume of 3M phosphoric acid that can be made from a 5M solution, you can use the formula M1V1 = M2V2. Plug in the values: M1 = 5M, V1 = 95ml, M2 = 3M. Then solve for V2. Convert the units accordingly to obtain the volume of 3M phosphoric acid that can be made.
Hydrochloric acid (H2SO4) is a strong acid that can cause severe burns if it comes in contact with the skin. In combination with 3M, which is a type of mask, the H2SO4 can cause the mask to deteriorate quickly, reducing its effectiveness and potentially exposing you to harmful gases or particles. It's important to use proper protective equipment and work in a well-ventilated area when handling H2SO4 to avoid any accidents or health risks.
3M HCl is a dilute hydrochloric acid solution with a concentration of 3 moles per liter, while 6M HCl is a more concentrated hydrochloric acid solution with a concentration of 6 moles per liter. This means that 6M HCl is more acidic and will be stronger in terms of its corrosive properties compared to 3M HCl.
35% of 3 million = 3m * 35/100 = 1,050,00035% of 3 million = 3m * 35/100 = 1,050,00035% of 3 million = 3m * 35/100 = 1,050,00035% of 3 million = 3m * 35/100 = 1,050,000
Multiply by 100
1 m = 100 cm so 3m = 300 cm
To neutralize the 25ml of 3M acid, you would need to find the number of moles of acid present, which is 25ml * 3M = 75 millimoles. Then, you would need the same number of millimoles of the 8M base to neutralize it, so you would need 75 millimoles / 8M = 9.38ml of the 8M base.
To determine the volume of 3M phosphoric acid that can be made from a 5M solution, you can use the formula M1V1 = M2V2. Plug in the values: M1 = 5M, V1 = 95ml, M2 = 3M. Then solve for V2. Convert the units accordingly to obtain the volume of 3M phosphoric acid that can be made.
100 percent of 3 m is 3m.
Yes, 1 meter is the same as 100 centimeters.
1 m is equivalent to 100 cm. So, 3m = (3 x 100) cm = 300 cm 3 m 67 cm = 300 cm + 67 cm = 367 cm.
12meters
3m
3 Meters ==> 100 MHz 3 Miles ==> 62.137 KHz