07:12:00
HSF-006 - andle you can measure mass using a balance because most of the time when we measure something on a balance we use it to measure weight you want to measure mass and you do that by taking this calibrated mass and using the scale to measure it and you've supposed to measure the gravitational force of the item that you’re trying to measure when you use a balance you tilt it inward a scale that's calibrated in accordance to the earth's gravitational pull on it and then you look at the angle and you define the mass this is a fine technique in the universe and here at home because you can always look at the angle and infer that the mass is correctly measured because in a physics equation c is constant it's one of the first things that we learn about physics c is always one miraculously and in a physics world because we do know that the universe would have its own history of time in fact the universe would do itself slow in a universe where c is one and appears to be one c is always one and so you can always give most of the time if you set up your balance correctly in accordance to the earth's gravitational pull and measure the weight of the item in accordance to that in the scale you've built up correctly that it's a usefully accurate measure of mass and you can do that all this time without actually looking at the mass and still using a balance where you have calibrated the scale in accordance to the earth's gravitational pull it's to measure the gravitational pull of the item in the universe that's what you want to measure and what your scale is calibrated to do is to measure mass using the earth's gravitational pull to do that you do that you look at the angle of the balance and then you define well the mass is correctly measured when an angle is at a certain number that's fine that's well that's a fine useful technique for measuring mass in the universe and here at home because you can always look at the angle and then you can infer that the mass is correctly measured you can measure mass using an electric balance because the tilt of scale changes by the earth's gravitational pull and you can calibrate one trace to find out the mass using a scale which can be conducted by the angle of the balance balance it's to measure the gravitational force of the item that you're trying to measure when you use a balance you tilt it inward a scale that's calibrated in accordance with the earth's gravitational pull and then you look at the angle and you define the mass this is a fine technique in the universe and here at home because you can always look at the angle and infer that the mass is correctly measured because in a physics equation c is constant c is always one in the universe and here at home c is always one and so you can always give most of the time if you set up your balance correctly in accordance with the earth's gravitational pull and measure the weight of the item in accordance with that in the scale you've built up correctly that it's a usefully accurate measure of mass and you can do that all this time without actually looking at the mass and still use a balance where you have calibrated the scale in accordance with the earth's gravitational pull it's to measure the gravitational force of the item in the universe that's what you want to measure and what your scale is calibrated to do is to measure mass using the earth's gravitational pull to do that you do that you look at the angle of the balance and then you define well the mass is correctly measured when an angle is at a certain number that's fine that's well that's a fine useful technique for measuring mass in the universe and here at home because you can always look at the angle and then you can infer that the mass is correctly because using an electric balance you can tilt the balance to make the angle happen the angle is where the balance ends right when you know the equation you can measure mass using a balance because the tilt of scale changes by the earth's gravitational pull and you can calibrate one trace to find out the mass using a scale which can be conducted by the angle of the balance balance it's to measure the gravitational force of the item that you're trying to measure when you use a balance you tilt it inward a scale that's calibrated in accordance with the earth's gravitational pull and then you look at the angle and you define the mass this is a fine technique in the universe and here at home because you can always look at the angle and infer that the mass is correctly measured because in a physics equation c is constant c is always one in the universe and here at home c is always one and so you can always give most of the time if you set up your balance correctly in accordance with the earth's gravitational pull and measure the weight of the item in accordance with that in the scale you've built up correctly that it's a usefully accurate measure of mass and you can do that all this time without actually looking at the mass and still use a balance where you have calibrated the scale in accordance with the earth's gravitational pull it's to measure the gravitational force of the item that you're trying to measure when you use a balance you tilt it inward a scale that's calibrated in accordance with the earth's gravitational pull and then you look at the angle and you define the mass this is a fine technique in the universe and here at home because you can always look at the angle and infer that the mass is correctly measured because in a physics equation c is constant c is always one in the universe and here at home c is always one and so you can always give most of the time if you set up your balance correctly in accordance with the earth's gravitational pull and measure the weight of the item in accordance with that in the scale you've built up correctly that it's a usefully accurate measure of mass and you can do that all this time without actually looking at the mass and still use a balance where you have calibrated the scale in accordance with the earth's gravitational pull it's to measure the gravitational force of the item that you're trying to measure when you use a balance you tilt it inward a scale that's calibrated in accordance with the earth's gravitational pull and then you look at the angle and you define the mass this is a fine technique in the universe and here at home because you can always look at the angle and infer that the mass is correctly measured because in a physics equation c is constant c is always one in the universe and here at home c is always one and so you can always give most of the time if you set up your balance correctly in accordance with the earth's gravitational pull and measure the weight of the item in accordance with that in the scale you've built up correctly that it's a usefully accurate measure of mass and you can together using an electric balance you can tilt the balance to make the angle happen the angle is where the balance ends right using an electric balance you can tilt the balance to make the angle happen that's right like you tilt it just to to that level where the balance is just about to move and then you let the balance settle down and you can get perfect gentle balance in the order of 0.01 kill that's why you can measure mass using an electric balance because the tilt of scale changes by the earth's gravitational pull and you can calibrate one trace to find out the mass using a scale which can be conducted by the angle of the balance balance you can measure mass using an electric balance because the tilt of scale changes by the earth's gravitational pull and you can calibrate one trace to find out the mass using a scale which can be conducted by the angle of the balance balance you can measure mass using an electric balance because the tilt of scale changes by the earth's gravitational pull and you can calibrate one trace to find out the mass using a scale which can be conducted by the angle of the balance balance you can measure mass using an electric balance because the tilt of scale changes by the earth's gravitational pull and you can calibr by using an electric balance you can tilt the balance to make the angle happen the angle is where the balance ends right measure mass using an electric balance because the tilt of scale changes by the earth's gravitational pull and you can calibrate one trace to find out the mass using a scale which can be conducted by the angle of the balance balance of scale changes by the earth's gravitational pull and you can calibrate put the balance at zero on the scale that's calibrated in accordance with the earth's gravitational pull and then you look at the angle and you define the mass this is a fine technique in the universe and here at home because you can always look at the angle and infer that the mass is correctly measured because in a physics equation c is constant c is always one in the universe and here at home c is always one and so you can always give most of
2020年7月11日
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