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2 years ago

Convert 2.83 days into seconds

1 answer:

5 0

2.83 days into hours = 2.83 x 24 = 67.92 hours

67.92 hours into minute = 67.92 x 60 = 4075.2 minutes

4075.2 minutes into seconds = 4075.2 x 60 = 244,512 seconds.

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How many milliliters of a 0.266 M RbNO3 solution are required to make 150.0 mL of 0.075 M RbNO3 solution? How many milliliters o

Westkost [7]

Answer : 42.3 ml of a 0.266 M $RbNO_3$ solution are required.

Solution : Given,

Molarity of $RbNO_3$ solution 1 = 0.266 M

Molarity of $RbNO_3$ solution 2 = 0.075 M

Volume of $RbNO_3$ solution 2 = 150 ml = 0.150 L (1 L = 1000 ml)

Formula used :

$M_1V_1=M_2V_2$

where,

$M_1$ = Molarity of $RbNO_3$ solution 1

$M_2$ = Molarity of $RbNO_3$ solution 2

$V_1$ = Volume of $RbNO_3$ solution 1

$V_2$ = Volume of $RbNO_3$ solution 2

Now put all the given values in above formula, we get

$0.266M\times V_1=0.075M\times 0.150L\\V_1=0.042293L=42.293ml\approx 42.3 ml$ (1 L = 1000 ml)

Therefore, 42.3 ml of a 0.266 M $RbNO_3$ solution are required.

8 0

2 years ago

]Which of the following describes the arrangement of particles in plasma?The particles are ionized and move independently of eac

Ugo [173]

The arrangement of the particles in a plasma would be that the particles are ionized and move independently of each other. Plasma is also called an ionized gas where it has free charged particles and are moving regardless of each other.

4 0

3 years ago

Read 2 more answers

i don't need these solved I just need the steps to solve it and. what these problems in chemistry would be called so I can look

wolverine [178]

The answers are as follows,

1. 4.71 L,

2. 3.29 L,

3. 1634.6 torr

<u>Explanation:</u>

All the above problems can be sorted out using the Boyle's law represents the relationship between the volume and pressure.

It can be expressed as follows,

P1V1 = P2V2

Rearranging the above expression, we get,

$$ V2 = \frac{P1V1}{V2}$

1) The first case can be solved as,

$$V 2=\frac{921 \mathrm{mm} \mathrm{Hg} \times 3.89 \mathrm{L}}{760 \mathrm{mm} \mathrm{Hg}}=4.71 \mathrm{L}$

2) The second case can be solved as,

$$V 2=\frac{25 L \times 600 \text { torr}}{4560 \text { torr}}=3.29 L$

3) The third case can be solved as,

$$P 2=\frac{7.43 L \times 1100 \text { torr}}{5 L}=1634.6 \text { torr}$

Thus the answers for all the three cases are found as,

1. 4.71 L,

2. 3.29 L,

3. 1634.6 torr respectively

6 0

2 years ago

How many molecules of sulfur dioxide are present in 1.60 moles of sulfur dioxide

ELEN [110]

For this question, you must know that there are 6.022e23 atoms/molecules per mole of any substance (this is Avogadro's number). Therefore, your answer is 6.022e23 * 1.60 = 9.64e23 molecules of sulfur dioxide. (the "e" represents "times ten to the power of ___ ")

5 0

2 years ago

2 Points

fiasKO [112]

Answer:land

Explanation:

6 0

2 years ago