The weight W that a horizontal beam can support varies inversely as the length L of the beam. Suppose that a 4-m beam can support 1000 kg. How many kilograms can a 17-m beam support?

Question

The weight W that a horizontal beam can support varies inversely as the length L of the beam. Suppose that a 4-m beam can support 1000 kg. How many kilograms can a 17-m beam support?

Answer 1

Well, the weight W is inversely proportional to the length L of the beam. This means that as the length increases, the weight decreases. So, we can set up the equation W = k/L, where k is a constant.

To find the value of k, we can use the information given. When L = 4 m, W = 1000 kg. Plugging these values into the equation, we have:

1000 = k/4

To solve for k, we can multiply both sides by 4:

4000 = k

Now that we have the value of k, we can find the weight that a 17-m beam can support by plugging L = 17 into the equation:

W = 4000/17

Calculating this value gives us W ≈ 235.29 kg.

So, a 17-m beam can support approximately 235.29 kilograms. And hey, that's a pretty weighty topic!

Answer 2

To find the weight that a 17-m beam can support, we need to use the inverse variation formula.

Inverse variation formula: W = k/L

Where:
W = weight the beam can support
L = length of the beam
k = constant of variation

We are given that a 4-m beam can support 1000 kg. Let's use this information to determine the value of k.

W = 1000 kg
L = 4 m

Using the inverse variation formula, we have:
1000 kg = k/4 m

Let's solve for k by cross-multiplying:
1000 kg * 4 m = k
4000 kgm = k

Now that we know the value of k, we can find the weight that a 17-m beam can support.

W = k/L
L = 17 m

Substituting the values into the formula, we have:
W = 4000 kgm / 17 m

Simplifying, we find:
W = 4000/17 kg

Therefore, a 17-m beam can support approximately 235.29 kg (rounded to two decimal places).

Answer 3

To solve this problem, we need to use the inverse variation formula:

W = k/L,

where W is the weight, L is the length, and k is the constant of variation.

We can find the value of k by substituting the given values into the formula. When a 4-m beam can support 1000 kg:

1000 = k/4.

To solve for k, we multiply both sides of the equation by 4:

4000 = k.

Now that we have the value of k, we can find the weight W for a 17-m beam. Substituting the values into the formula:

W = 4000/17.

Calculating this division, we get:

W ≈ 235.29 kg.

Therefore, a 17-m beam can support approximately 235.29 kg.

Answer 4

W = k(1/L)

given: if L = 4m, W = 1000 kg
1000 = k(1/4)
k = 4000

so : W = 4000/L
if L = 17
W = 4000/17 = appr 235.29 kg

or

by ratio:
W1/W2 = L2/L1
1000/W2 = 17/4
17W2 = 4000
W2 = 4000/17 = 235.29 , as before

The weight W that a horizontal beam can support varies inversely as the length L of the beam. Suppose that a 4-m beam can support 1000 kg. How many kilograms can a 17-m beam​ support?

Well, the weight W is inversely proportional to the length L of the beam. This means that as the length increases, the weight decreases. So, we can set up the equation W = k/L, where k is a constant.

To find the weight that a 17-m beam can support, we need to use the inverse variation formula.

To solve this problem, we need to use the inverse variation formula:

W = k(1/L)

The weight W that a horizontal beam can support varies inversely as the length L of the beam. Suppose that a 4-m beam can support 1000 kg. How many kilograms can a 17-m beam support?