How do I make my own extension for chrome?

Answers

Answer 1

Answer: open your browser and click the 3 strip bar in the conner and then look toward the bottom and click settings and it will open a new browser and then you are going to look at the left side and you will see extension click it and there you go...

Related Questions

A cable that connects the computer to the printer is an example ofA.HardwareB.Software
How do graphic designers showcase their work?
The SHAPE of your CO2 car resembles which aerodynamic technologies?
What is individual components of a torch would need to function
I have a bag of trail mix.half of the bag contains peanuts.1/4of the bag is chocolates candies, and 1/4of the bag is dried fruit. What is the probability that I will select a peanut? A.1/2.b.1.4.c.1/3.

What is one major component that would not be found in a tablet or phone, and how has modern computing made that component less important?

Answers

Answer:

A hard drive

Explanation:

Since tablets and phones are compact, they are better off not having a big, giant, bulky storage device like hard drives. Modern computing made hard drives less important by developing Solid-State Drives (SSDs) and extremely dense (512 bit) storage that can provide the same if not more storage than a traditional hard drive at the fraction of the size.

A floppy drive. These things are very bulky and the floppy disk do not store much data.

How would you experiment to find out how much water this plant type needs for optimal growth

Answers

Plant Growth ExperimentsThe instructions below outline a protocol for conducting plant growth experiments in the laboratory. You may want to make adaptations for use in a greenhouse or outdoors.Purpose: To determine the effect of compost on plant germination and growth.Materialspots or planting trayscompostsoilseedslight source (sunlight or artificial lighting)Procedure1. Design your own experiment. There are many possibilities--a few ideas are listed here, but the variations are endless:Test various combinations of soil and compost on plant growth. For example, you might wish to dig a soil sample from your school yard and mix it with various amounts of finished compost for planting experiments. (Natural soil is better than prepackaged potting soils for experiments such as this because the potting mixes are formulated for optimal plant growth and already contain significant amounts of compost or humus.)Another possibility is to mix your own potting soil by using vermiculite, sand, and compost. Creating several mixtures using the same percentages but different types of compost is a good way of comparing the influence of the various types of compost on plant growth. For example, you could compare compost at various levels of maturity, compost created using different mixtures of organic wastes, or vermicompost versus compost created in a thermophilic system.If you are interested in investigating the effects of compost tea on plant growth, you could fill the pots with a sandy soil or potting medium such as vermiculite, then use compost extracts for watering.2. Whatever type of experiment you choose, make sure that you design your experiment to include replicates of the various treatments. For example, your design might look like the following:Treatment(% soil/% compost)# Flats(with 6 plants in each)# Plants100% compost 3 1825/75 3 1850/50 3 1875/25 3 18100% soil 3 183. Plant your seeds, water them, and place them in a well-lit location. Many type of seeds will work, but radish or lettuce are often chosen because they grow quickly. Melon seeds are sensitive to fungal diseases, and thus they provide a sensitive indicator of whether fungi have been killed through heating or curing of the compost.4. Keep all the pots in the same setting to minimize any variation in temperature, lighting, pests, and other environmental factors. Even when the environmental conditions are kept as constant as possible, it is a good idea to randomize the grouping of plants rather than placing all the plants that are receiving the same treatment together in one group. This helps to further minimize the effect of any environmental differences.5. Record on a daily basis the number of seeds that have germinated, plant growth, and observations about plant health such as color, vigor, or damage due to pests and diseases. You can decide what measurements to use as indicators of plant growth; possibilities include plant height, number and size of leaves, and dry weight of the entire plant at the end of the experiment. (For dry weight, weigh the plant after drying in a 105C oven for 24 hours.)Analysis and Interpretation1. Graph germination rates and plant growth over time for the different treatments. Also, determine the mean number of seeds germinated and mean size or mass of the plants at the end of the experiment. Compare average germination rates, plant growth, and health for the different experimental treatments. Based on your experiments, what was the optimal potting mix for plant germination? For plant growth? For plant health?2. Some things may have gone wrong in your experiments. For example, you may have over-watered your plants, causing them all to die from fungal infection regardless of the treatment. Or you may have taken measurements only on plant height, and later decided that measuring the number of leaves and length of the main stem would have given better information. These types of problems are normal and can be used as a basis for redesigning the experiment. How might you change your experimental design if you were to carry out another set of growth experiments?3. You may not find any differences between the treatments. Or, you may discover that the plants grown without compost did best. If this is the case, it may be difficult to determine whether the compost had no effect, or you did something wrong. The tendency is to assume the compost really has an effect and to attribute insignificant or negative results to experimental mistakes. However, the interpretation of results should not be biased by your predictions or preconceived ideas about the way experiments will turn out. Often unexpected results lead to important insights and questions. Maybe your compost is of poor quality, or maybe the plant species you chose grows well in poor soils. Explore all the possibilities for explaining your results with an open mind, through discussions and new experiments.

Another weekly question (I need to stop these)Who is your favorite lets player or animator

Answers

Answer:

jaiden

Explanation:

Answer: wat dat mean

Explanation:

What private service may occur on a web server?A. anonymous user’s browser requesting a web page

B. Database administrator accessing the web server

C. Malicious user accessing the web server

D. The server processing transaction details

Answers

I believe the answer is D

Which of the following statements is TRUE?A. Paying off your entire credit card balance can lower
your credit score
B. The longer you use credit responsibly, the higher your
credit score will be
C. Applying for soveral credit cards in one year can help
increase your credit score,
D. People with low credit scores are usually low-risk
borrowers,

Answers

Answer:

Explanation:

im pretty sure thats the answer

Will give brainliest and good amount of points, no false answers.I am using javascript for school and I still have no idea what I am doing. Can someone help? The instructions are,

A key step in many sorting algorithms (including selection sort) is swapping the location of two items in an array. Here's a swap function that looks like it might work, but doesn't:
-the code prints out [9, 9, 4] when it should print out [9, 7, 4].

Fix the swap function.

Hint: Work through the code line by line, writing down the values of items in the array after each step. Could you use an extra temporary variable to solve the problem that shows up?

Once implemented, uncomment the Program.assertEqual() at the bottom to verify that the test assertion passes.

the layout for javascript is,

var swap = function(array, firstIndex, secondIndex) {
array[firstIndex] = array[secondIndex];
array[secondIndex] = array[firstIndex];
};

var testArray = [7, 9, 4];
swap(testArray, 0, 1);

println(testArray);

//Program.assertEqual(testArray, [9, 7, 4]);

Answers

The problem with the swap function is that it loses the value at the first index, as soon as it gets overwritten by the value at the second index. This happens in the first statement. To fix it, you need a helper variable.

First you're going to "park" the index at the first index in that helper variable, then you can safely overwrite it with the value at the second index. Then finally you can write the parked value to the second index:

var swap = function(array, firstIndex, secondIndex) {

let helper = array[firstIndex];

array[firstIndex] = array[secondIndex];

array[secondIndex] = helper;

};

I hope this makes sense to you.

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