Want this question answered?
I suppose that this method was alpha spectrometry.
I suppose that this method was alpha spectrometry.
velocities
Analyze starlight transmitted to Earth.
well first u can eat a ham sandwich or u can take volume then times it by 860 then determine how many killawatts it has in it then u divide it by the kilometers so that's two the last on is switching to allstate "Can u afford not to be in good hands?"
It depends on what the second method is!
Still me... by the way, this is an 8th grade science experiment so simplicity would be nice. Thank you for your assistance in advance.
the water displacement method
Get a sample of the metal. Use a scale to find its mass. If it is shape is that of a rectangular solid (box) measure length, width, and height and multiply to find volume. If it is irregularly shaped, use the water displacement method to find its volume. Divide the mass by the volume to get the density.
Multiple the length by the width by the height
"Brace Height" is the distance from the belly of the bow to the bowstring when the bow is strung. A good method for determining proper brace height is placing your fist on the belly of the bow and raising your thumb, and the end of your thumb is were the bowstring should be.
Volume = cross-sectional Area x Length (or height).
To find the length of a diagonal in a rectangle, use the Pythagorean method. Diagonal length = square root(length squared + height squared).
You really can't solve it with the length. you need the height. Normally to get the area of a triangle, multiply the base X height, and divide by 2. However, you are using the terms length and width. When you say length and width, if you really mean base and height, then use the method given above.
Finding the center of gravity of an irregularly shaped object can be done using the plumb line method.
length times width times height
You need to put it into a container or other measuring object and use the water displacement method. This means that you put water into the container and when the object is placed inside, you take the difference between the height of the water before and the height of the water afterward. This is the volume of the object.