9 inches : 27 feet = 9 inches : 27*12 inches = 9 : 324 = 1 : 36
By unit of length and distance and conversion ,we can say that 1 feet=12 inches 4 feet =48 inches 48 > 4 inches =4 feet > 4 inches
By unit of length and distance and conversion ,we can say that 1 ft=12 inches 2 inches =1 2* 2= 24 ft
15.2 feet
By unit of length and distance and conversion ,we can say that 1 feet=12 inches
By unit of length and distance and conversion ,we can say that 1 feet=12 inches 3 feet =36 inches 32 <36 inches that is ,32 < 3 feet
To find the scale factor of the drawing, first convert the actual length from feet to inches since the drawing's length is in inches. There are 12 inches in a foot, so 8 feet equals 96 inches. The scale factor can then be calculated by dividing the drawing length (4 inches) by the actual length (96 inches), resulting in a scale factor of 1:24. This means that 1 inch on the drawing represents 24 inches in reality.
The scale factor for a model train with a length 36 inches and the length of engine itself is 24 feet would be 1/8th. In order to answer this you will have to do a little math.
Fg
To find the scale factor, divide the height of the basketball player by the height of the model. The player is 6 feet 8 inches tall, which is equivalent to 80 inches (6 feet x 12 inches/foot + 8 inches). The model is 5 inches tall, so the scale factor is 80 inches / 5 inches = 16. Therefore, the scale factor is 16:1.
On a scale in which 2 inches represents 5 feet, a length of 7.5 inches would represent 18.75 feet.
12 inches
1 to 16.
One-fortyeighth
To find the actual length of the train, we can set up a proportion based on the scale. The model train is 35 inches long, and according to the scale, 7 inches corresponds to 90 feet. Therefore, we can calculate the actual length as follows: [ \text{Actual Length} = \left( \frac{90 , \text{feet}}{7 , \text{inches}} \right) \times 35 , \text{inches} = 450 , \text{feet}. ] Thus, the actual length of the train is 450 feet.
To find the scale of the blueprint, divide the actual length of the wall by the length on the blueprint. The actual length is 15 feet, which is equivalent to 180 inches (since 1 foot = 12 inches). The blueprint length is 5 centimeters, which is approximately 1.97 inches (since 1 centimeter ≈ 0.3937 inches). Therefore, the scale of the blueprint is 180 inches / 1.97 inches, which simplifies to approximately 91.4:1.
To find the length of the room on the blueprint, we can set up a proportion based on the scale provided. Since 14 inches on the blueprint represents 2 feet in reality, we can calculate the blueprint length for 20 feet using the ratio: [ \text{Blueprint length} = \frac{14 \text{ inches}}{2 \text{ feet}} \times 20 \text{ feet} = 140 \text{ inches}. ] Therefore, the length of the room on the blueprint would be 140 inches.
It would be: 96/12 = 8 inches