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Find his total earnings from [tex]$p$[/tex] vegetables.

(i) How much does he earn to support the family every night?

(ii) If he spends [tex]$\frac{2}{5}$[/tex] of his earnings in a month, how much does he save?

(iii) There are pipes of different sizes to fill water. One pipe can fill [tex]$\frac{1}{4}$[/tex] part in an hour.

Sagot :

GinnyAnsweridn
It looks like there are multiple distinct parts to your question which might be a bit mixed up. To provide a detailed, step-by-step solution, let's break it down into manageable parts and address each one clearly:

1. Find Total Earning from [tex]$p$[/tex] Vegetal Rin:
- Let's assume the total earnings from selling vegetal rin is represented by [tex]\( E \)[/tex].

2. How Much He Earns His Earning to Ruth the Family Every Night:
- Let's assume how much he allocates for his family every night is denoted as [tex]\( F \)[/tex].

3. If He Spends [tex]\(\frac{2}{5}\)[/tex] Pat in a Month, How Much Does He Save:
- To find out how much he saves, let's assume his total monthly earnings are denoted as [tex]\( M \)[/tex].
- He spends [tex]\(\frac{2}{5}\)[/tex] of [tex]\( M \)[/tex], so the amount spent is [tex]\(\frac{2}{5}M\)[/tex].
- The amount he saves is the remaining part of his monthly earnings: [tex]\( M - \frac{2}{5}M \)[/tex].

4. Different Sizes to Fill Water: One Pipe Can Fill [tex]\(\frac{1}{4}\)[/tex] Part in Thry:
- This part of the question is slightly unclear. However, we'll assume you are asking about how long it takes for multiple pipes to fill a tank if one pipe can fill [tex]\(\frac{1}{4}\)[/tex] of the tank in a certain amount of time.

Given the mixed-up nature of the question, let's handle the frequent elements mentioned, assuming [tex]\( p \)[/tex], [tex]\( E \)[/tex], [tex]\( F \)[/tex], and [tex]\( M \)[/tex] are related to "Pat" which seems to mean total income/earnings.

### Step-by-Step Breakdown:

1. Total Earning from [tex]\( p \)[/tex] Vegetal Rin:
- Let's redefine this earning as [tex]\( p \)[/tex].
- The total earnings from selling vegetal rin is represented by [tex]\( p \)[/tex].

2. Earnings for the Family Every Night:
- Assume overall monthly earnings are [tex]\( M \)[/tex] and a portion [tex]\( F \)[/tex] is assigned to family needs every night.
- If he earns [tex]\( F \)[/tex] every night for 30 nights, monthly:
[tex]\[ F = \frac{M}{30} \][/tex]

3. Monthly Spending and Saving:
- Given he spends [tex]\(\frac{2}{5}\)[/tex] of his total earnings,
[tex]\[ \text{Spent amount} = \frac{2}{5}M \][/tex]
- Savings would be the remaining [tex]\(\frac{3}{5}\)[/tex]:
[tex]\[ \text{Savings per month} = M - \frac{2}{5}M = \frac{3}{5}M \][/tex]

4. Filling Water with Pipes:
- If one pipe fills [tex]\(\frac{1}{4}\)[/tex] of the tank in a certain time, let's denote the time as [tex]\( T \)[/tex].
- In [tex]\( T \)[/tex] units of time, the tank is [tex]\(\frac{1}{4}\)[/tex] full.
- Suppose you have multiple pipes working simultaneously:
- Having 4 such pipes working together would fill the tank in the same [tex]\( T \)[/tex] units of time.

So, for final clarifications or extending your question logically:
- Please provide exact values for [tex]\( p \)[/tex], [tex]\( E \)[/tex], and [tex]\( F \)[/tex], [tex]\( M \)[/tex].
- Clarify how the pipes integrate into the scenario if you have specifics.

This should streamline your mixed-up question into clear, actionable insights. For best practices in mathematical analysis, always ensure clarity in variable assignment and scenario description.
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