To understand, divide 1000 by 0.2 1000 / 0.2 = 10,000 / 2 = 5,000 Thus, 5,000 times larger.
The giant amoeba is 5000 times larger than the smallest bacterium. This is calculated by dividing the size of the giant amoeba (1000 micrometers) by the size of the smallest bacterium (0.2 micrometers).
0.01 micrometers=1.0 × 10-6 centimeters
To determine how many cells with a length of 250 micrometers can fit across a microscope field with a diameter of 1 millimeter (1000 micrometers), you divide the total field diameter by the length of one cell. So, 1000 micrometers ÷ 250 micrometers = 4 cells. Therefore, a total of 4 cells can fit across the field.
A micrometer is 0.001 millimeters, one millionth of a meter. 75 micrometers, the length of a pixel on the iPhone 4, is: 0.075 millimeters
To determine how many cells fit across the microscope field, convert the diameter from millimeters to micrometers: 1 millimeter equals 1,000 micrometers. Then, divide the diameter of the field by the length of one cell: ( \frac{1000 \text{ micrometers}}{250 \text{ micrometers}} = 4 ). Therefore, four cells with a length of 250 micrometers will fit across the field.
5000 times larger 5000 times larger
The giant amoeba is 5000 times larger than the smallest bacterium. This is calculated by dividing the size of the giant amoeba (1000 micrometers) by the size of the smallest bacterium (0.2 micrometers).
1 millimeter = 1000 micrometers 35 millimeters x 1000 = 35000 micrometers
1 Micrometer = 1000 Nanometers. 50 Nanometers = 1000/50 Micrometers = 20 Micrometers.
1 millimeter = 1000 micrometers
There are 64,000 micrometers in 64 millimeters. 64 millimeters x 1000 micrometers/1 millimeter = 64,000 micrometers 1 millimeter = 1000 micrometers
1000 micrometers = 1 millimeter 123/1000 =0.123 millimeter
1000 times larger. There are 1000 grams in a kilogram.
0.01 micrometers=1.0 × 10-6 centimeters
1000 micrometres = 1 millimetre so a thousand times.
4 millimeters = 4000 micrometers. 1 millimeter = 1000 micrometers.
1000