Nanotechnology is the 1…………………of ‘miniature’. It is the engineering
of working 2…………………at the molecular level. Due to advancement in
technology area, nanotechnology is the 3………………………….. field that
interests many people. From the clothes and sunglasses we wear to
computer drives and even cleaning products, nanotechnology which is
4………………………….… by natural world, plays a big part in
manufacturing many familiar products of our daily use. It enhances our
sunscreen’s 5……………………….. to reflect harmful ultra violet radiation,
armours our designer shades against unwanted scratches. It increases the
capacity of our computer gadgets for storage of data and photos for our
use. Nanotechnology, very broad in its size, 6………………… in itself
diverse fields of sciences like surface science, organic chemistry, molecular
biology and semiconductor science etc. Similarly the research and
applications associated to it are also equally 7……………………………… .
Realising its commercial viability, the scientific institutions in India have
started carrying out research and development work in this filed. It is now
fast becoming a powerful technology that aids the development of products
with 8………………………. performance. The two major categories of
nanotechnology are nano-scale technology and molecular manufacturing.
The former covers small structures and can be used for introducing
stronger, better medicines and faster computers and so on. Molecular
manufacturing is an attempt at building mechanical and chemical
manufacturing systems that join molecules together.The two major categories of
nanotechnology are nano-scale technology and molecular manufacturing.
The former covers small structures and can be used for introducing
stronger, better medicines and faster computers and so on. Molecular
manufacturing is an attempt at building mechanical and chemical
manufacturing systems that join molecules together.The two major categories of
nanotechnology are nano-scale technology and molecular manufacturing.
The former covers small structures and can be used for introducing
stronger, better medicines and faster computers and so on. Molecular
manufacturing is an attempt at building mechanical and chemical
manufacturing systems that join molecules together.The two major categories of
nanotechnology are nano-scale technology and molecular manufacturing.
The former covers small structures and can be used for introducing
stronger, better medicines and faster computers and so on. Molecular
manufacturing is an attempt at building mechanical and chemical
manufacturing systems that join molecules together.
Nanotechnology is the 1…………………of ‘miniature’. It is the engineering
of working 2…………………at the molecular level. Due to advancement in
technology area, nanotechnology is the 3………………………….. field that
interests many people. From the clothes and sunglasses we wear to
computer drives and even cleaning products, nanotechnology which is
4………………………….… by natural world, plays a big part in
manufacturing many familiar products of our daily use. It enhances our
sunscreen’s 5……………………….. to reflect harmful ultra violet radiation,
armours our designer shades against unwanted scratches. It increases the
capacity of our computer gadgets for storage of data and photos for our
use. Nanotechnology, very broad in its size, 6………………… in itself
diverse fields of sciences like surface science, organic chemistry, molecular
biology and semiconductor science etc. Similarly the research and
applications associated to it are also equally 7……………………………… .
Realising its commercial viability, the scientific institutions in India have
started carrying out research and development work in this filed. It is now
fast becoming a powerful technology that aids the development of products
with 8………………………. performance. The two major categories of
nanotechnology are nano-scale technology and molecular manufacturing.
The former covers small structures and can be used for introducing
stronger, better medicines and faster computers and so on. Molecular
manufacturing is an attempt at building mechanical and chemical
manufacturing systems that join molecules together.The two major categories of
nanotechnology are nano-scale technology and molecular manufacturing.
The former covers small structures and can be used for introducing
stronger, better medicines and faster computers and so on. Molecular
manufacturing is an attempt at building mechanical and chemical
manufacturing systems that join molecules together.The two major categories of
nanotechnology are nano-scale technology and molecular manufacturing.
The former covers small structures and can be used for introducing
stronger, better medicines and faster computers and so on. Molecular
manufacturing is an attempt at building mechanical and chemical
manufacturing systems that join molecules together.The two major categories of
nanotechnology are nano-scale technology and molecular manufacturing.
The former covers small structures and can be used for introducing
stronger, better medicines and faster computers and so on. Molecular
manufacturing is an attempt at building mechanical and chemical
manufacturing systems that join molecules together.
-
1
1
-
2
2
-
3
3
-
V
V
-
V
V
-
V
V
-
V
V
-
V
V
Under AWS, which security aspects are the customer’s responsibility?
Under AWS, which security aspects are the customer’s responsibility?
Under AWS, which security aspects are the customer’s responsibility?
Under AWS, which security aspects are the customer’s responsibility?
You have a web application running on 6 Amazon EC2 instances,
consuming about 45% of resources on each instance.
You are using auto-scaling to make sure that 6 instances are running at all times.
The number of requests this application processes is consistent and does not experience spikes.
The application is critical to your business and you want high availability at all times.
You want the load to be distributed evenly between all instances.
You also want to use the same Amazon Machine Image (AMI) for all instances.
Which of the following architectural choices should you make?
You have a web application running on 6 Amazon EC2 instances,
consuming about 45% of resources on each instance.
You are using auto-scaling to make sure that 6 instances are running at all times.
The number of requests this application processes is consistent and does not experience spikes.
The application is critical to your business and you want high availability at all times.
You want the load to be distributed evenly between all instances.
You also want to use the same Amazon Machine Image (AMI) for all instances.
Which of the following architectural choices should you make?
You have a web application running on 6 Amazon EC2 instances,
consuming about 45% of resources on each instance.
You are using auto-scaling to make sure that 6 instances are running at all times.
The number of requests this application processes is consistent and does not experience spikes.
The application is critical to your business and you want high availability at all times.
You want the load to be distributed evenly between all instances.
You also want to use the same Amazon Machine Image (AMI) for all instances.
Which of the following architectural choices should you make?
You have a web application running on 6 Amazon EC2 instances,
consuming about 45% of resources on each instance.
You are using auto-scaling to make sure that 6 instances are running at all times.
The number of requests this application processes is consistent and does not experience spikes.
The application is critical to your business and you want high availability at all times.
You want the load to be distributed evenly between all instances.
You also want to use the same Amazon Machine Image (AMI) for all instances.
Which of the following architectural choices should you make?
Your web application front end consists of multiple EC2 instances behind an Elastic Load Balancer.
You configured ELB to perform health checks on these EC2 instances,
if an instance fails to pass health checks, which statement will be true?
Your web application front end consists of multiple EC2 instances behind an Elastic Load Balancer.
You configured ELB to perform health checks on these EC2 instances,
if an instance fails to pass health checks, which statement will be true?
Under AWS, which security aspects are the customer’s responsibility?
Under AWS, which security aspects are the customer’s responsibility?
Your web application front end consists of multiple EC2 instances behind an Elastic Load Balancer.
You configured ELB to perform health checks on these EC2 instances,
if an instance fails to pass health checks, which statement will be true?
Your web application front end consists of multiple EC2 instances behind an Elastic Load Balancer.
You configured ELB to perform health checks on these EC2 instances,
if an instance fails to pass health checks, which statement will be true?
You have a web application running on 6 Amazon EC2 instances,
consuming about 45% of resources on each instance.
You are using auto-scaling to make sure that 6 instances are running at all times.
The number of requests this application processes is consistent and does not experience spikes.
The application is critical to your business and you want high availability at all times.
You want the load to be distributed evenly between all instances.
You also want to use the same Amazon Machine Image (AMI) for all instances.
Which of the following architectural choices should you make?
You have a web application running on 6 Amazon EC2 instances,
consuming about 45% of resources on each instance.
You are using auto-scaling to make sure that 6 instances are running at all times.
The number of requests this application processes is consistent and does not experience spikes.
The application is critical to your business and you want high availability at all times.
You want the load to be distributed evenly between all instances.
You also want to use the same Amazon Machine Image (AMI) for all instances.
Which of the following architectural choices should you make?
Your web application front end consists of multiple EC2 instances behind an Elastic Load Balancer.
You configured ELB to perform health checks on these EC2 instances,
if an instance fails to pass health checks, which statement will be true?
Your web application front end consists of multiple EC2 instances behind an Elastic Load Balancer.
You configured ELB to perform health checks on these EC2 instances,
if an instance fails to pass health checks, which statement will be true?